Ejemplo n.º 1
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	// IAAFSession *				pSession = NULL;
	IAAFFile *					pFile = NULL;
	IAAFHeader *				pHeader = NULL;
	IEnumAAFMobs *mobIter = NULL;
	IAAFMob			*aMob = NULL;
	IAAFEssenceDescriptor		*pEdesc = NULL;
	IAAFSourceMob				*pSourceMob = NULL;
	IEnumAAFLocators *			pEnum = NULL;
	IEnumAAFLocators *			pCloneEnum = NULL;
	IAAFLocator	*				pLocator = NULL;
	aafUInt32					numLocators;
	aafNumSlots_t	numMobs, n;
	HRESULT						hr = AAFRESULT_SUCCESS;
	bool bFileOpen = false;
	wchar_t						testname[256];
	IAAFLocator				*	pArray[2] = { NULL, NULL };
	IAAFLocator				**	pArrayPoint = pArray;
	aafUInt32			resultCount;


	try
	{	
    // Open the file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;

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

		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		checkExpression (1 == numMobs, AAFRESULT_TEST_FAILED);

		checkResult(pHeader->GetMobs (NULL, &mobIter));
		for(n = 0; n < numMobs; n++)
		{
			aafWChar		name[500];
			aafMobID_t		mobID;

			checkResult(mobIter->NextOne (&aMob));
			checkResult(aMob->GetName (name, sizeof(name)));
			checkResult(aMob->GetMobID (&mobID));

			checkResult(aMob->QueryInterface (IID_IAAFSourceMob, (void **)&pSourceMob));
			checkResult(pSourceMob->GetEssenceDescriptor (&pEdesc));

			// Verify that there is now two locators
			checkResult(pEdesc->CountLocators(&numLocators));
		  checkExpression(2 == numLocators, AAFRESULT_TEST_FAILED);
		
			checkResult(pEdesc->GetLocators(&pEnum));

			/* Read and check the first element */
			checkResult(pEnum->NextOne(&pLocator));
			checkResult(pLocator->GetPath (testname, sizeof(testname)));
			checkExpression(wcscmp(testname, locator1) == 0, AAFRESULT_TEST_FAILED);
			pLocator->Release();
			pLocator = NULL;

			/**/
			/* Read and check the second element */
			checkResult(pEnum->NextOne(&pLocator));
			checkResult(pLocator->GetPath (testname, sizeof(testname)));
			checkExpression(wcscmp(testname, locator2) == 0, AAFRESULT_TEST_FAILED);
			pLocator->Release();
			pLocator = NULL;
			/*****/
			
			/* Reset, and check the first element again*/
			checkResult(pEnum->Reset());
			checkResult(pEnum->NextOne(&pLocator));
			checkResult(pLocator->GetPath (testname, sizeof(testname)));
			checkExpression(wcscmp(testname, locator1) == 0, AAFRESULT_TEST_FAILED);
			pLocator->Release();
			pLocator = NULL;
			
			/* Reset, Skip, and check the second element again*/
			checkResult(pEnum->Reset());
			checkResult(pEnum->Skip(1));
			checkResult(pEnum->NextOne(&pLocator));
			checkResult(pLocator->GetPath (testname, sizeof(testname)));
			checkExpression(wcscmp(testname, locator2) == 0, AAFRESULT_TEST_FAILED);
			pLocator->Release();
			pLocator = NULL;

			/* Reset, and read both elements */
			checkResult(pEnum->Reset());
			checkResult(pEnum->Next (2, (IAAFLocator **)&pArray, &resultCount));
			checkExpression (resultCount == 2, AAFRESULT_TEST_FAILED);
			checkResult(pArrayPoint[0]->GetPath (testname, sizeof(testname)));
			checkExpression(wcscmp(testname, locator1) == 0, AAFRESULT_TEST_FAILED);
			pArrayPoint[0]->Release();
			pArrayPoint[0] = NULL;
			
			checkResult(pArrayPoint[1]->GetPath (testname, sizeof(testname)));
			checkExpression(wcscmp(testname, locator2) == 0, AAFRESULT_TEST_FAILED);
			pArrayPoint[1]->Release();
			pArrayPoint[1] = NULL;
			
			/* Read one past to make sure that it fails */
			checkExpression(pEnum->NextOne(&pLocator) != AAFRESULT_SUCCESS, AAFRESULT_TEST_FAILED);
			/* Clone the enumerator, and read one element */
			checkResult(pEnum->Clone(&pCloneEnum));
			checkResult(pCloneEnum->Reset());
			checkResult(pCloneEnum->NextOne(&pLocator));
			checkResult(pLocator->GetPath (testname, sizeof(testname)));
			checkExpression(wcscmp(testname, locator1) == 0, AAFRESULT_TEST_FAILED);
			pLocator->Release();
			pLocator = NULL;

			pEnum->Release();
			pEnum = NULL;

			pEdesc->Release();
			pEdesc = NULL;

			pSourceMob->Release();
			pSourceMob = NULL;

			aMob->Release();
			aMob = NULL;
			pCloneEnum->Release();
			pCloneEnum = NULL;

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

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

	if (pEnum)
		pEnum->Release();

	if (pEdesc)
		pEdesc->Release();

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

	if (mobIter)
		mobIter->Release();

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

	/*
	hr = pSession->EndSession();
 	if (AAFRESULT_SUCCESS != hr)
		return hr;
	*/

	return hr;
}
Ejemplo n.º 2
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	IAAFFile*				pFile = NULL;
	IAAFHeader*				pHeader = NULL;
	IEnumAAFMobs*			pMobIter = NULL;
	IAAFMob*				pMob = NULL;
	IAAFSourceMob*			pSourceMob = NULL;
	IAAFEssenceDescriptor*	pEssDesc = NULL;
	IAAFTIFFDescriptor*		pTIFFDesc = NULL;
	aafNumSlots_t			numMobs = 0;
	HRESULT					hr = AAFRESULT_SUCCESS;
	aafBool					isContiguous, isUniform;
	aafInt32				leadingLines, trailingLines;
	aafUInt32				size;
	aafUInt8				summary[512];

	try
	{
		// Open the AAF file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));

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

		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);

		checkResult(pHeader->GetMobs(NULL, &pMobIter));
		checkResult(pMobIter->NextOne(&pMob));
		checkResult(pMob->QueryInterface(IID_IAAFSourceMob, (void **)&pSourceMob));
		
		// Back into testing mode
		checkResult(pSourceMob->GetEssenceDescriptor(&pEssDesc));
		
		checkResult(pEssDesc->QueryInterface(IID_IAAFTIFFDescriptor, (void **)&pTIFFDesc));
		checkResult(pTIFFDesc->GetIsContiguous(&isContiguous));
		checkResult(pTIFFDesc->GetIsUniform(&isUniform));
		checkResult(pTIFFDesc->GetLeadingLines(&leadingLines));
		checkResult(pTIFFDesc->GetTrailingLines(&trailingLines));
		checkResult(pTIFFDesc->GetSummaryBufferSize(&size));
		checkExpression(size == 34, AAFRESULT_TEST_FAILED);
		checkResult(pTIFFDesc->GetSummary(size, summary));
		checkExpression(isContiguous == kAAFTrue, AAFRESULT_TEST_FAILED);
		checkExpression(isUniform == kAAFFalse, AAFRESULT_TEST_FAILED);
		checkExpression(leadingLines == 10, AAFRESULT_TEST_FAILED);
		checkExpression(trailingLines == 20, AAFRESULT_TEST_FAILED);
// The next statement is not true when doing cross-platform tests
//#if defined( OS_WINDOWS )
//		checkExpression(memcmp(summary, "II", 2) == 0, AAFRESULT_TEST_FAILED);
//#else
//		checkExpression(memcmp(summary, "MM", 2) == 0, AAFRESULT_TEST_FAILED);
//#endif

    // NOTE: The elements in the summary structure need to be byte swapped
		//       on Big Endian system (i.e. the MAC).
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	
  
	// Cleanup and return
	if (pEssDesc)
		pEssDesc->Release();

	if (pTIFFDesc)
		pTIFFDesc->Release();

	if (pMob)
		pMob->Release();

	if (pSourceMob)
		pSourceMob->Release();

	if (pHeader)
	    pHeader->Release();

	if (pMobIter)
	    pMobIter->Release();

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

	return hr;
}
Ejemplo n.º 3
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	IAAFFile *					pFile = NULL;
	IAAFHeader *				pHeader = NULL;
	IAAFDictionary*				pDictionary = NULL;
	IAAFSourceMob*				pSourceMob = NULL;
	IAAFMob*					pMob = NULL;
	IAAFEssenceDescriptor*		pEssDesc = NULL;
	IAAFBWFImportDescriptor*	pBWFImportDesc = NULL;
	IEnumAAFRIFFChunks*			pEnum = NULL;
	IAAFRIFFChunk*				pRIFFChunk = NULL;
	IAAFRIFFChunk*				pRIFFChunkTest = NULL;
	IEnumAAFMobs*				pMobIter = NULL;
	aafUInt32					numData, bytesRead, com, testNum;
	aafLength_t					testRIFFLen;
	aafNumSlots_t				numMobs;
	char						Value[sizeof(RIFFChunksmiley)];
	char						Value2[sizeof(RIFFChunkfrowney)];
	HRESULT						hr = AAFRESULT_SUCCESS;
	wchar_t						testString[256];

	checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));

		checkResult( pFile->GetHeader(&pHeader));
		// Get the AAF Dictionary so that we can create a fake RIFFChunk to test RemoveUnknownBWFChunks.
		checkResult(pHeader->GetDictionary(&pDictionary));
		CAAFBuiltinDefs defs (pDictionary);
		checkResult(defs.cdRIFFChunk()->CreateInstance(IID_IAAFRIFFChunk, 
							 (IUnknown **)&pRIFFChunkTest));
		
		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		if (1 == numMobs )
		{
			checkResult(pHeader->GetMobs(NULL, &pMobIter));
			checkResult(pMobIter->NextOne(&pMob));
			checkResult(pMob->QueryInterface(IID_IAAFSourceMob, (void **)&pSourceMob));
			
			// Back into testing mode
			checkResult(pSourceMob->GetEssenceDescriptor(&pEssDesc));
			checkResult( pEssDesc->QueryInterface( IID_IAAFBWFImportDescriptor, (void**)&pBWFImportDesc ));	 
					
			checkResult(pBWFImportDesc->GetFileSecurityReport(&testNum));
			checkExpression(testNum==TEST_FileSecurityReport, AAFRESULT_TEST_FAILED);
			checkResult(pBWFImportDesc->GetFileSecurityWave(&testNum));
			checkExpression(testNum==TEST_FileSecurityWave, AAFRESULT_TEST_FAILED);
			checkResult(pBWFImportDesc->GetCodingHistory(testString, sizeof(testString)));
			checkExpression(wcscmp(testString, TEST_CodingHistory) == 0, AAFRESULT_TEST_FAILED);
			checkResult(pBWFImportDesc->GetBasicData(testString, sizeof(testString)));
			checkExpression(wcscmp(testString, TEST_BasicData) == 0, AAFRESULT_TEST_FAILED);
			checkResult(pBWFImportDesc->GetStartOfModulation(testString, sizeof(testString)));
			checkExpression(wcscmp(testString, TEST_StartOfModulation) == 0, AAFRESULT_TEST_FAILED);
			checkResult(pBWFImportDesc->GetQualityEvent(testString, sizeof(testString)));
			checkExpression(wcscmp(testString, TEST_QualityEvent) == 0, AAFRESULT_TEST_FAILED);
			checkResult(pBWFImportDesc->GetEndOfModulation(testString, sizeof(testString)));
			checkExpression(wcscmp(testString, TEST_EndOfModulation) == 0, AAFRESULT_TEST_FAILED);
			checkResult(pBWFImportDesc->GetQualityParameter(testString, sizeof(testString)));	
			checkExpression(wcscmp(testString, TEST_QualityParameter) == 0, AAFRESULT_TEST_FAILED);
			checkResult(pBWFImportDesc->GetOperatorComment(testString, sizeof(testString)));
			checkExpression(wcscmp(testString, TEST_OperatorComment) == 0, AAFRESULT_TEST_FAILED);
			checkResult(pBWFImportDesc->GetCueSheet(testString, sizeof(testString)));
			checkExpression(wcscmp(testString, TEST_CueSheet) == 0, AAFRESULT_TEST_FAILED);
			
			checkResult(pBWFImportDesc->CountUnknownBWFChunks(&numData));
			checkExpression(2 == numData, AAFRESULT_TEST_FAILED);
			checkResult(pBWFImportDesc->GetUnknownBWFChunks(&pEnum));

			for(com = 0; com < numData; com++)
			{	
				checkResult(pEnum->NextOne(&pRIFFChunk));	
				pRIFFChunk->GetLength(&testRIFFLen);
				checkExpression(testRIFFLen!=chunkLength /*huh?*/, AAFRESULT_TEST_FAILED);
				checkResult(pRIFFChunk->GetLength(&testRIFFLen));
				pRIFFChunk->GetChunkID(&testNum);
				
				if (testNum==1){
					checkExpression(sizeof(RIFFChunksmiley) == testRIFFLen, AAFRESULT_TEST_FAILED);
					checkResult(pRIFFChunk->Read( sizeof(Value), (unsigned char *)Value, &bytesRead));
					checkExpression(memcmp(Value, RIFFChunksmiley, sizeof(RIFFChunksmiley)) == 0, AAFRESULT_TEST_FAILED);						
				}
				else if (testNum==2){
					checkExpression(sizeof(RIFFChunkfrowney) == testRIFFLen, AAFRESULT_TEST_FAILED);
					checkResult(pRIFFChunk->Read( sizeof(Value2), (unsigned char *)Value2, &bytesRead));
					checkExpression(memcmp(Value2, RIFFChunkfrowney, sizeof(RIFFChunkfrowney)) == 0, AAFRESULT_TEST_FAILED);
				}
				pRIFFChunk->Release();
				pRIFFChunk = NULL;
				
			}
			checkResult(pEnum->Reset());
		  	checkResult(pEnum->NextOne(&pRIFFChunk));
			checkExpression((pBWFImportDesc->RemoveUnknownBWFChunkAt(2))==AAFRESULT_BADINDEX, AAFRESULT_TEST_FAILED);
			checkResult(pBWFImportDesc->RemoveUnknownBWFChunkAt(0));
			checkResult(pBWFImportDesc->CountUnknownBWFChunks(&numData));
			checkExpression(1 == numData, AAFRESULT_TEST_FAILED);
		
			pRIFFChunk->Release();
			pRIFFChunk = NULL;
			pEnum->Release();
			pEnum = NULL;
			pBWFImportDesc->Release();
			pBWFImportDesc = NULL;
			pEssDesc->Release();
			pEssDesc = NULL;
								
							
			pSourceMob->Release();
			pSourceMob = NULL;
				 
			pMobIter->Release();
			pMobIter = NULL;
	
			
		}
		pRIFFChunkTest->Release();
		pRIFFChunkTest = NULL;

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

		pDictionary->Release();
		pDictionary = NULL;

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

	return hr;
}
Ejemplo n.º 4
0
static HRESULT ReadAAFFile(const aafWChar * pFileName, testType_t testType)
{
  IAAFFile *					pFile = NULL;
  IAAFHeader *				pHeader = NULL;
  IAAFDictionary*					pDictionary = NULL;
  IAAFEssenceAccess*			pEssenceAccess = NULL;
  IAAFEssenceMultiAccess*		pMultiEssence = NULL;
  IAAFEssenceFormat			*fmtTemplate =  NULL;
  IEnumAAFMobs*				pMobIter = NULL;
  IAAFMob*					pMob = NULL;
  IAAFMasterMob*				pMasterMob = NULL;
  IAAFEssenceFormat*			pFormat = NULL;

  aafNumSlots_t				numMobs, numSlots;
  aafSearchCrit_t				criteria;
  aafRational_t				readSampleRate;
  aafMobID_t					mobID;
  aafWChar					namebuf[1204];
  unsigned char				AAFDataBuf[4096];
  aafUInt32					AAFBytesRead, samplesRead;
  FILE*						pWavFile = NULL;
  unsigned char				WAVDataBuf[4096], *dataPtr;
  size_t						WAVBytesRead;
  aafUInt32					dataOffset, dataLen;
  aafUInt16					bitsPerSample, numCh;

  check(AAFFileOpenExistingRead ( pFileName, 0, &pFile));
  check(pFile->GetHeader(&pHeader));

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


  // Here we check on the number of mobs in the file. 
  // Get the number of master mobs in the file (should be one)
  check(pHeader->CountMobs(kAAFMasterMob, &numMobs));
  // ** causes leak

  if (1 == numMobs )
    {
      printf("Found %d Master Mobs\n", numMobs);
      criteria.searchTag = kAAFByMobKind;
      criteria.tags.mobKind = kAAFMasterMob;
      check(pHeader->GetMobs(&criteria, &pMobIter));
      while(AAFRESULT_SUCCESS == pMobIter->NextOne(&pMob))
	{
	  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);
	  // Make sure we have two slots 
	  check(pMob->CountSlots(&numSlots));
	  if (2 == numSlots)
	    {
				// The essence data is in SlotID 1
				// Get a Master Mob interface
	      check(pMob->QueryInterface(IID_IAAFMasterMob, (void **)&pMasterMob));

				// Open the Essence Data
	      check(pMasterMob->OpenEssence(	1,     // SlotID 1
						NULL,  // mediaCriteria (Don't care)
						kAAFMediaOpenReadOnly,	// Open mode
						kAAFCompressionDisable,// Compress disabled
						&pEssenceAccess));

				// Open and read the Wave file (for comparison)
	      pWavFile = fopen("Laser.wav", "r");
	      if (pWavFile)
		{
		  // read in the essence data
		  WAVBytesRead = fread(WAVDataBuf, sizeof(unsigned char), sizeof(WAVDataBuf), pWavFile);
		  fclose(pWavFile);
		  pWavFile = NULL;
		  check(loadWAVEHeader(WAVDataBuf,
				       &bitsPerSample,
				       &numCh,
				       &readSampleRate,
				       &dataOffset,
				       &dataLen));
		  dataPtr = WAVDataBuf + dataOffset;

		  aafUInt32			sampleBits;
		  aafInt32			bytesRead;
					
		  check(pEssenceAccess->GetEmptyFileFormat (&fmtTemplate));
		  check(fmtTemplate->AddFormatSpecifier (kAAFAudioSampleBits, 0, NULL));
		  check(pEssenceAccess->GetFileFormat (fmtTemplate, &pFormat));
		  fmtTemplate->Release();
		  fmtTemplate = NULL;
					
		  check(pFormat->GetFormatSpecifier (kAAFAudioSampleBits, sizeof(sampleBits),
						     (aafDataBuffer_t)&sampleBits, &bytesRead));
		  pFormat->Release();
		  pFormat = NULL;
		  if(sampleBits != bitsPerSample)
		    {
		      printf("***Wrong sample size read ( was %d , should be %d)\n",
			     sampleBits, bitsPerSample);
		    }

		  // Read the Data from the AAF file
		  if(testType == testStandardCalls)
		    {
		      check(pEssenceAccess->ReadSamples( dataLen, //!!! Hardcoded	// Number of Samples 
							 sizeof(AAFDataBuf),	// Maximum buffer size
							 AAFDataBuf,	  // Buffer for the data
							 &samplesRead,      // Actual number of samples read
							 &AAFBytesRead));	// Actual number of bytes read
		    }
		  else if(testType == testMultiCalls)
		    {
		      aafmMultiXfer_t		xfer;
		      aafmMultiResult_t	result;

		      check(pEssenceAccess->QueryInterface(IID_IAAFEssenceMultiAccess, (void **)&pMultiEssence));
		      xfer.numSamples = dataLen;	//!!! Hardcoded	// Number of Samples 
		      xfer.buflen = sizeof(AAFDataBuf);
		      xfer.buffer = AAFDataBuf;
		      result.bytesXfered = 0;
		      check(pMultiEssence->ReadMultiSamples(1, &xfer, &result));
		      samplesRead = result.samplesXfered;
		      AAFBytesRead = result.bytesXfered;
		      pMultiEssence->Release();
		      pMultiEssence = NULL;
		    }

		  // Now compare the data read from the AAF file to the actual WAV file
		  if (dataLen != AAFBytesRead)
		    {
		      printf("***Wrong number of bytes read (was %u , should be %zu)\n",
			     AAFBytesRead, WAVBytesRead);
		    }
		  if (memcmp( dataPtr, AAFDataBuf, dataLen) != 0)
		    {
		      printf("*** Data Read is different than the data in the WAV file ***\n");
		    }
		}
	      else
		{
		  printf("***Failed to open Wave file Laser.wav for comparison\n");
		}
	    }
	  else
	    {
	      printf("***Wrong number of slots in the Master Mob (was %d should be %d)\n",
		     numSlots, 2);
	    }
	  if (pMasterMob)
	    {
	      pMasterMob->Release();
	      pMasterMob = NULL;
	    }

	  pMob->Release();
	  pMob = NULL;
	  if (pEssenceAccess)
	    {
	      pEssenceAccess->Release();
	      pEssenceAccess = NULL;
	    }
	} // while pMobIter->NextOne
      pMobIter->Release();
      pMobIter = NULL;

    }
  else
    {
      printf("***Wrong number of Master mobs in the file (was %d should be %d)\n",
	     numMobs, 1);
    }
  printf("--------\n");

 cleanup:
  // Cleanup and return

  if (pWavFile)
    fclose(pWavFile);
  if (pMultiEssence)
    pMultiEssence->Release();
  pMultiEssence=NULL;
  if(fmtTemplate)
    {
      fmtTemplate->Release();
      fmtTemplate = NULL;
    }
  if (pEssenceAccess)
    {
      pEssenceAccess->Release();
      pEssenceAccess = NULL;
    }
  if (pDictionary)
    pDictionary->Release();
  pDictionary=NULL;

  if (pHeader)
    pHeader->Release();
  pHeader=NULL;
  if (pMobIter)
    pMobIter->Release();
  pMobIter=NULL;
  if (pFormat)
    pFormat->Release();
  pFormat=NULL;

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

  return moduleErrorTmp;
}
Ejemplo n.º 5
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	IAAFFile*				pFile = NULL;
	IAAFHeader*				pHeader = NULL;
	IEnumAAFMobs*			pMobIter = NULL;
	IAAFMob*				pMob = NULL;
	IAAFSourceMob*			pSourceMob = NULL;
	IAAFEssenceDescriptor*	pEssDesc = NULL;
	IAAFDataEssenceDescriptor*		pDataEssenceDesc = NULL;
	aafNumSlots_t			numMobs = 0;
	aafUID_t				dataEssenceCoding, dataEssTestVal;
	HRESULT					hr = AAFRESULT_SUCCESS;


	try
	{
		memset(&dataEssTestVal, 0, sizeof(aafUID_t));
		// Open the AAF file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));

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

		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);

		checkResult(pHeader->GetMobs(NULL, &pMobIter));
		checkResult(pMobIter->NextOne(&pMob));
		checkResult(pMob->QueryInterface(IID_IAAFSourceMob, (void **)&pSourceMob));
		
		// Back into testing mode
		checkResult(pSourceMob->GetEssenceDescriptor(&pEssDesc));
		
		// if there is an Essence Descriptor then it MUST be an (essence) DataEssence Descriptor
		checkResult(pEssDesc->QueryInterface(IID_IAAFDataEssenceDescriptor, (void **) &pDataEssenceDesc));

		checkResult(pDataEssenceDesc->GetDataEssenceCoding(&dataEssenceCoding));
	 	checkExpression(memcmp(&dataEssenceCoding, &dataEssTestVal, sizeof(aafUID_t)) == 0,
                    AAFRESULT_TEST_FAILED);
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	
  
	// Cleanup and return
	if (pDataEssenceDesc)
		pDataEssenceDesc->Release();

  if (pEssDesc)
		pEssDesc->Release();

	if (pSourceMob)
		pSourceMob->Release();

	if (pMob)
		pMob->Release();

	if (pMobIter)
		pMobIter->Release();

	if (pHeader)
		pHeader->Release();

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

	return hr;
}
Ejemplo n.º 6
0
static HRESULT  ReadAAFFile(aafWChar *  pFileName )
{
	HRESULT hr = AAFRESULT_SUCCESS;
	
	IAAFFile *					pFile = NULL;
	IAAFHeader *				pHeader = NULL;
	IEnumAAFMobs*				pMobIter = NULL;
	IAAFCompositionMob *		pCMob = NULL;
	IAAFMob*					pMob = NULL;
	bool bFileOpen = false;
	aafNumSlots_t				numMobs;
	IAAFObject*					pObj = NULL;
	
	IEnumAAFProperties * pEnum = NULL;
	IAAFProperty *pProp = NULL;
	
	IAAFPropertyDef* pPropDef = NULL;
	IAAFPropertyValue* pPropVal = NULL;

	IAAFTypeDef*	pTypeDef  = NULL;

	try
	{
		// Open the file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;
		
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));
		
		// Validate that there is only one composition mob.
		checkResult(pHeader->CountMobs(kAAFCompMob, &numMobs));
		checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);
		
		// Enumerate over all Composition Mobs
		aafSearchCrit_t				criteria;
		criteria.searchTag = kAAFByMobKind;
		criteria.tags.mobKind = kAAFCompMob;
		checkResult(pHeader->GetMobs(&criteria, &pMobIter));
		while (AAFRESULT_SUCCESS == pMobIter->NextOne(&pMob))
		{		
			//Get the Composition mob
			checkResult (pMob->QueryInterface (IID_IAAFCompositionMob,
				(void **) &pCMob));
			
			//Get the Object
			checkResult (pCMob->QueryInterface (IID_IAAFObject,
				(void **) &pObj));
			
			//From the Object, we can get the properties ....
			aafUInt32 propCount = 0;
			checkResult (pObj->CountProperties (&propCount));
			//A composition should have at least 5 properties ...
 			checkExpression(propCount>=5, AAFRESULT_TEST_FAILED);
			
			//Get Enumeration over properties
			checkResult (pObj->GetProperties (&pEnum));
			checkExpression (pEnum != 0, AAFRESULT_TEST_FAILED);
			while (propCount--)
			{
				//Check for property validity
				checkResult (pEnum->NextOne (&pProp));
				checkExpression (pProp != NULL, AAFRESULT_TEST_FAILED);
				//Now call prop methods
				
				//1.  Get Definition
				checkResult( pProp->GetDefinition(&pPropDef) );
				//2. Get Value
				checkResult( pProp->GetValue(&pPropVal) );

				//deal with prop value
				checkResult( pPropVal->GetType(&pTypeDef) );

				//From propval, get the typedef!!!!!!!!!!!!!!!!!!!!!
				IAAFTypeDefSP spTypeDef;
				checkResult( pPropVal->GetType(&spTypeDef) );

				//get category
				eAAFTypeCategory_t typeCat = kAAFTypeCatUnknown;
				checkResult (spTypeDef->GetTypeCategory(&typeCat));
				//make sure it is not unknown
				checkExpression(kAAFTypeCatUnknown != typeCat, AAFRESULT_TEST_FAILED);
				
				//Deal with our Name  String .... 
				if (typeCat == kAAFTypeCatString)
				{
					IAAFTypeDefStringSP  spTypeDefString;
					checkResult( spTypeDef->QueryInterface(IID_IAAFTypeDefString, 
												(void**)&spTypeDefString) );

					aafUInt32 bufSize = 
						//don't forget the NULL char, and factoring in the size of a wchar
						   (wcslen(TEST_NAME)+1) * sizeof(aafCharacter); 

					aafCharacter *nameBuf = new aafCharacter[bufSize];
					checkResult( spTypeDefString->GetElements(pPropVal, (aafMemPtr_t)nameBuf, bufSize) );
					checkExpression( wcscmp(TEST_NAME, nameBuf) == 0, AAFRESULT_TEST_FAILED );
					delete [] nameBuf;
				}

				//Done ...........

				//release typedef
				pTypeDef->Release();

				//release defintion + value
				pPropDef->Release();
				pPropVal->Release();
				
				//release this prop
				pProp->Release();
				pProp = NULL;

			}//while prop count
		}//while mob iter
	}//try
	
	catch (HRESULT & rResult)
	{
		hr = rResult;
	}
	
	//Release the rest ...
	if (pEnum) 
		pEnum->Release();
	
	if (pObj) 
		pObj->Release();
	if (pCMob) 
		pCMob->Release();
	if (pMob)
		pMob->Release();
	if (pMobIter)
		pMobIter->Release();
	if (pHeader)
		pHeader->Release();
	
	if (pFile) 
	{
		if (bFileOpen)
			pFile->Close();
		pFile->Release();
	}
	
	return hr;
	
}
Ejemplo n.º 7
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
  IAAFDictionary		*pDictionary = NULL;
  IAAFFile 				*pFile = NULL;
  bool 					bFileOpen = false;
  IAAFHeader 			*pHeader = NULL;
  IEnumAAFMobs 			*mobIter = NULL;
  IAAFMob				*aMob = NULL;
  IEnumAAFMobSlots		*slotIter = NULL;
  IAAFMobSlot			*slot = NULL;
  aafNumSlots_t			numMobs, n, s;
  HRESULT				hr = S_OK;
  aafUInt32 			bufLen = 0;
  aafUInt32 			bytesRead = 0;
  aafUInt32				numFound = 0;
  aafWChar				value[500];
  IEnumAAFTaggedValues 	*enumTaggedVal = NULL;
  IAAFTaggedValue		*taggedVal = NULL;
  aafUID_t				testKey;
  IEnumAAFKLVData		*klvEnum = NULL;
  IAAFKLVData			*pKLVData = NULL;
  IAAFTypeDef*			pBaseType = NULL;
  IAAFSourceClip		*pSourceClip = NULL;
  IAAFSourceReference	*pSourceRef = NULL;
  IAAFSegment			*pSegment = NULL;
  aafMobID_t			sourceID;
  int 					i;


  try
	{
	  // Open the file
	  checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
	  bFileOpen = true;

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


	  checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
	  checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);


	  aafSearchCrit_t		criteria;
	  criteria.searchTag = kAAFNoSearch;
	  checkResult(pHeader->GetMobs (&criteria, &mobIter));

	  for(n = 0; n < numMobs; n++)
		{
		  aafWChar		name[500], slotName[500];
		  aafNumSlots_t	numSlots;
		  aafMobID_t		mobID;
		  aafSlotID_t		trackID;
		  aafUInt32 nameBufLen = 0;

		  checkResult(mobIter->NextOne (&aMob));
      
	      // Check GetNameBufLen and GetName
	      checkExpression(aMob->GetNameBufLen(NULL) == AAFRESULT_NULL_PARAM, AAFRESULT_TEST_FAILED);
	      checkResult(aMob->GetNameBufLen(&nameBufLen));
	      checkExpression(((wcslen(mobName) + 1) * sizeof(aafCharacter)) == nameBufLen, AAFRESULT_TEST_FAILED);
		  checkExpression(aMob->GetName (NULL, nameBufLen) == AAFRESULT_NULL_PARAM, AAFRESULT_TEST_FAILED);
		  checkExpression(aMob->GetName (name, 4) == AAFRESULT_SMALLBUF, AAFRESULT_TEST_FAILED);
		  checkResult(aMob->GetName (name, nameBufLen));
		  checkExpression (wcscmp(mobName, name) == 0, AAFRESULT_TEST_FAILED);

	      // Check GetMobID
		  checkExpression(aMob->GetMobID (NULL) == AAFRESULT_NULL_PARAM, AAFRESULT_TEST_FAILED);
		  checkResult(aMob->GetMobID (&mobID));
		  checkExpression(memcmp(&MOBTestID, &mobID, sizeof(mobID)) == 0, AAFRESULT_TEST_FAILED);

		  // Check the time stamps
		  aafTimeStamp_t created = { {0,0,0}, {0,0,0,0} };
		  checkExpression(aMob->GetCreateTime(NULL) == AAFRESULT_NULL_PARAM, AAFRESULT_TEST_FAILED);
		  checkResult(aMob->GetCreateTime(&created));
		  checkTimeStampsAreEqual(creationTimeStamp, created);
		  aafTimeStamp_t modified = { {0,0,0}, {0,0,0,0} };
		  checkExpression(aMob->GetModTime(NULL) == AAFRESULT_NULL_PARAM, AAFRESULT_TEST_FAILED);
		  checkResult(aMob->GetModTime(&modified));
		  checkTimeStampsAreEqual(modificationTimeStamp, modified);

	      // Check the GetMobInfo data.
	      memset(&created, 0, sizeof(created));
	      memset(&modified, 0, sizeof(modified));
	      checkExpression(aMob->GetMobInfo(NULL, &created, 
      								   name, sizeof(name)) == AAFRESULT_NULL_PARAM,
      														  AAFRESULT_TEST_FAILED);
	      checkExpression(aMob->GetMobInfo(&modified, NULL, 
      								   name, sizeof(name)) == AAFRESULT_NULL_PARAM,
      														  AAFRESULT_TEST_FAILED);
	      checkExpression(aMob->GetMobInfo(&modified, &created, 
      								   NULL, sizeof(name)) == AAFRESULT_NULL_PARAM,
      														  AAFRESULT_TEST_FAILED);
		  checkExpression(aMob->GetMobInfo(&modified, &created, 
      								   name, 1) == AAFRESULT_SMALLBUF,
      												AAFRESULT_TEST_FAILED);
	      checkResult(aMob->GetMobInfo(&modified, &created, name, sizeof(name)));
		  checkTimeStampsAreEqual(creationTimeStamp, created);
		  checkTimeStampsAreEqual(modificationTimeStamp, modified);
		  checkExpression (wcscmp(mobName, name) == 0, AAFRESULT_TEST_FAILED);

		  checkExpression(aMob->CountSlots (NULL) == AAFRESULT_NULL_PARAM, AAFRESULT_TEST_FAILED);
		  checkResult(aMob->CountSlots (&numSlots));

		  //seven slots made by IAAFMob and  one static slot and event slot made throught IAAFMOb2
		  checkExpression((7+1+1) == numSlots, AAFRESULT_TEST_FAILED);

		  checkExpression(aMob->GetSlots(NULL) == AAFRESULT_NULL_PARAM, AAFRESULT_TEST_FAILED);
		  checkResult(aMob->GetSlots(&slotIter));

		  for(s = 0; s < numSlots; s++)
			{
			  checkResult(slotIter->NextOne (&slot));
			  checkResult(slot->GetNameBufLen(&bufLen));
			  checkResult(slot->GetName (slotName, bufLen));
			  checkResult(slot->GetSlotID(&trackID));
			  checkExpression (wcscmp(slotName, slotNames[s]) == 0, AAFRESULT_TEST_FAILED);
			  checkExpression(trackID == (s+1), AAFRESULT_TEST_FAILED);

			  slot->Release();
			  slot = NULL;
			  bufLen = 0;
			  trackID = 0;
			}
			slotIter->Release();
			slotIter = NULL;
			
			// GetSlotAt
			checkExpression(aMob->GetSlotAt(1, NULL) == AAFRESULT_NULL_PARAM,
														AAFRESULT_TEST_FAILED);
			checkExpression(aMob->GetSlotAt(9, &slot) == AAFRESULT_BADINDEX,
														AAFRESULT_TEST_FAILED);
			for (s = 0; s < numSlots; ++s)
			{
				checkResult(aMob->GetSlotAt(s, &slot));
				checkResult(slot->GetNameBufLen(&bufLen));
				checkResult(slot->GetName(slotName, bufLen));
				checkResult(slot->GetSlotID(&trackID));
				checkExpression(wcscmp(slotName, slotNames[s]) == 0, AAFRESULT_TEST_FAILED);
				checkExpression(trackID == (s+1), AAFRESULT_TEST_FAILED);	

				if ( 0 < s && s < 5 ) // These are the SourceClips
				{
					checkResult(slot->GetSegment(&pSegment));
			  		checkResult(pSegment->QueryInterface (IID_IAAFSourceClip, (void **)&pSourceClip));
				  	checkResult(pSourceClip->QueryInterface (IID_IAAFSourceReference, (void **)&pSourceRef));
				    checkResult(pSourceRef->GetSourceID(&sourceID));
				    checkExpression(memcmp(&sourceID, &MOBTestID3, sizeof(aafMobID_t)) == 0,
				    													 AAFRESULT_TEST_FAILED);
			  		pSourceRef->Release();
			  		pSourceRef = NULL;
			  		pSourceClip->Release();
            pSourceClip = NULL;
			  		pSegment->Release();
            pSegment = NULL;
				}
				
				slot->Release();
				slot = NULL;
				bufLen = 0;
				trackID = 0;
			}			

		  // ChangeRef
		  checkResult(aMob->ChangeRef(MOBTestID3, MOBTestID4));

		  for (s = 1; s < 5; ++s) // These are the SourceClips
		  {
				checkResult(aMob->GetSlotAt(s, &slot));
				checkResult(slot->GetSegment(&pSegment));
  		  		checkResult(pSegment->QueryInterface (IID_IAAFSourceClip, (void **)&pSourceClip));
	  	  		checkResult(pSourceClip->QueryInterface (IID_IAAFSourceReference, (void **)&pSourceRef));
	      		checkResult(pSourceRef->GetSourceID(&sourceID));
	      		checkExpression(memcmp(&sourceID, &MOBTestID4, sizeof(aafMobID_t)) == 0,
		   													 AAFRESULT_TEST_FAILED);
			  	pSourceRef->Release();
			  	pSourceRef = NULL;
			  	pSourceClip->Release();
			  	pSourceClip = NULL;
			  	pSegment->Release();
			  	pSegment = NULL;
		  		slot->Release();
			  	slot = NULL;
		  }

		  // try it again with a MobID it won't find.  Make sure nothing changes
		  checkResult(aMob->ChangeRef(MOBTestID3, MOBTestID2));

		  for (s = 1; s < 5; ++s) // These are the SourceClips
		  {
				checkResult(aMob->GetSlotAt(s, &slot));
				checkResult(slot->GetSegment(&pSegment));
  		  		checkResult(pSegment->QueryInterface (IID_IAAFSourceClip, (void **)&pSourceClip));
	  	  		checkResult(pSourceClip->QueryInterface (IID_IAAFSourceReference, (void **)&pSourceRef));
	      		checkResult(pSourceRef->GetSourceID(&sourceID));
	      		checkExpression(memcmp(&sourceID, &MOBTestID4, sizeof(aafMobID_t)) == 0,
		   													 AAFRESULT_TEST_FAILED);
			  	pSourceRef->Release();
			  	pSourceRef = NULL;
			  	pSourceClip->Release();
			  	pSourceClip = NULL;
			  	pSegment->Release();
			  	pSegment = NULL;
		  		slot->Release();
			  	slot = NULL;
		  }

		  // LookUpSlot
		  checkResult(aMob->LookupSlot(4, &slot));
		  checkResult(slot->GetSegment(&pSegment));
		  checkResult(pSegment->QueryInterface (IID_IAAFSourceClip, (void **)&pSourceClip));
		  checkResult(pSourceClip->QueryInterface (IID_IAAFSourceReference, (void **)&pSourceRef));
		  checkResult(pSourceRef->GetSourceID(&sourceID));

		  checkResult(slot->GetNameBufLen(&bufLen));
		  checkResult(slot->GetName(slotName, bufLen));
		  checkResult(slot->GetSlotID(&trackID));
		  checkExpression(wcscmp(slotName, slotNames[3]) == 0, AAFRESULT_TEST_FAILED);
		  checkExpression(trackID == (4), AAFRESULT_TEST_FAILED);	

		  pSourceRef->Release();
		  pSourceRef = NULL;		
		  pSourceClip->Release();
		  pSourceClip = NULL;		
		  pSegment->Release();
		  pSegment = NULL;		
		  slot->Release();
		  slot = NULL;		

      
      checkExpression(aMob->LookupSlot(10, &slot) == AAFRESULT_SLOT_NOT_FOUND,
													AAFRESULT_TEST_FAILED);

		  checkExpression(aMob->LookupSlot(0, NULL) == AAFRESULT_NULL_PARAM,
													AAFRESULT_TEST_FAILED);
					  												
		  // OffsetToMobTimecode
		  // 7/5/00  - this method is broken so the tests that will 
		  // make it fail have been commented out.  This module test 
		  // will still report Partial Success until implementation has been fixed
		  aafPosition_t		offset = 1;
		  aafTimecode_t		timecode;
		  // initialize timecode values
		  timecode.startFrame = 0;
		  timecode.drop = kAAFTcDrop;
		  timecode.fps = 24;

		  checkResult(aMob->LookupSlot(6, &slot));
		  checkResult(slot->GetSegment(&pSegment));

		  checkResult(aMob->OffsetToMobTimecode(pSegment, &offset, &timecode));
		  checkExpression(timecode.startFrame == (TCstartFrame + offset), AAFRESULT_TEST_FAILED);
		  checkExpression(timecode.drop == TCdrop, AAFRESULT_TEST_FAILED);
		  checkExpression(timecode.fps == TCfps, AAFRESULT_TEST_FAILED);

		  checkExpression(aMob->OffsetToMobTimecode(pSegment, NULL, &timecode) == AAFRESULT_NULL_PARAM,
															AAFRESULT_TEST_FAILED);
		  checkExpression(aMob->OffsetToMobTimecode(pSegment, &offset, NULL) == AAFRESULT_NULL_PARAM,
															AAFRESULT_TEST_FAILED);
															
		  // reinitialize values
		  timecode.startFrame = 0;
		  timecode.drop = kAAFTcDrop;
		  timecode.fps = 24;

		  // According to IDL this should search for the slot containing the timecode segment
		  checkResult(aMob->OffsetToMobTimecode(NULL, &offset, &timecode));
		  checkExpression(timecode.startFrame == (TCstartFrame + offset), AAFRESULT_TEST_FAILED);
		  checkExpression(timecode.drop == TCdrop, AAFRESULT_TEST_FAILED);
		  checkExpression(timecode.fps == TCfps, AAFRESULT_TEST_FAILED);
															
		  pSegment->Release();
		  pSegment = NULL;
		  slot->Release();
		  slot = NULL;
		  
		  // Pass in a segment that is not a timecode and make sure it returns correct hr
		  checkResult(aMob->LookupSlot(1, &slot));
		  checkResult(slot->GetSegment(&pSegment));
		  checkExpression(aMob->OffsetToMobTimecode(pSegment, &offset, &timecode) == AAFRESULT_TIMECODE_NOT_FOUND,
															AAFRESULT_TEST_FAILED);
		  pSegment->Release();
		  pSegment = NULL;
		  slot->Release();
		  slot = NULL;

		  // GetKLVData
		  checkResult(pDictionary->LookupTypeDef (kAAFTypeID_UInt8Array, &pBaseType));
		  checkResult(pDictionary->RegisterKLVDataKey(TEST_KLV, pBaseType));
		  pBaseType->Release();
		  pBaseType = NULL;

		  checkResult(aMob->CountKLVData(&numFound));
		  checkExpression(numFound == 2, AAFRESULT_TEST_FAILED);
		  checkResult(aMob->GetKLVData(&klvEnum));
		  
		  checkResult(klvEnum->NextOne(&pKLVData));
		  checkResult(pKLVData->GetValueBufLen(&bufLen));
		  checkExpression(sizeof(KLVfrowney) == bufLen, AAFRESULT_TEST_FAILED);
		  checkResult(pKLVData->GetValue( sizeof(value), (unsigned char *)value, &bytesRead));
		  checkExpression(memcmp(value, KLVfrowney, sizeof(KLVfrowney)) == 0, AAFRESULT_TEST_FAILED);
		  checkResult(pKLVData->GetKey(&testKey));
		  checkExpression(memcmp(&testKey, &TEST_KLV, sizeof(aafUID_t)) == 0, AAFRESULT_TEST_FAILED);
		  pKLVData->Release();
		  pKLVData = NULL;

		  checkResult(klvEnum->NextOne(&pKLVData));
		  checkResult(pKLVData->GetValueBufLen(&bufLen));
		  checkExpression(sizeof(KLVsmiley) == bufLen, AAFRESULT_TEST_FAILED);
		  checkResult(pKLVData->GetValue( sizeof(value), (unsigned char *)value, &bytesRead));
		  checkExpression(memcmp(value, KLVsmiley, sizeof(KLVsmiley)) == 0, AAFRESULT_TEST_FAILED);
		  checkResult(pKLVData->GetKey(&testKey));
		  checkExpression(memcmp(&testKey, &TEST_KLV, sizeof(aafUID_t)) == 0, AAFRESULT_TEST_FAILED);
		  pKLVData->Release();
		  pKLVData = NULL;

		  klvEnum->Release();
		  klvEnum = NULL;

		  checkExpression(aMob->GetKLVData(NULL) == AAFRESULT_NULL_PARAM,
		  												AAFRESULT_TEST_FAILED);	  


		  // Check the comments 
		  checkResult(aMob->GetComments(&enumTaggedVal));
		  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;
		  }		



		  // Check attributes and usage code.
		  // Need IAAFMob2 for that;
		  IAAFMob2* aMobInterface2 = 0;
		  checkResult( aMob->QueryInterface( IID_IAAFMob2, reinterpret_cast<void**>(&aMobInterface2) ) );
		  
		  IEnumAAFTaggedValues* pAttributesEnum = 0;
		  checkResult( aMobInterface2->GetAttributes( &pAttributesEnum ) );

		  int attributeCount = 0;
		  HRESULT atthr = AAFRESULT_SUCCESS;
		  IAAFTaggedValue* pAttribute = 0;
		  for( atthr = pAttributesEnum->NextOne( &pAttribute );
		       atthr == AAFRESULT_SUCCESS;
		       atthr = pAttributesEnum->NextOne( &pAttribute ) ) {

		    aafUInt32 bufLen = 0;
		    checkResult( pAttribute->GetNameBufLen(&bufLen) );

		    // "name" is 500 chars long... sized more than
		    // large enough for a simple test.
		    checkExpression( attributeCount < 2, AAFRESULT_TEST_FAILED );
		    checkResult( pAttribute->GetName( name, bufLen ) );
		    checkExpression( wcscmp(name, AttributeNames[attributeCount] ) == 0, AAFRESULT_TEST_FAILED );


		    // check the value

		    IAAFTypeDef* pAttributeTypeDef = NULL;
		    checkResult( pAttribute->GetTypeDefinition( &pAttributeTypeDef ) );
		    // It should be a string.
		    IAAFTypeDefString* pTDString = NULL;
		    checkResult( pAttributeTypeDef->QueryInterface( IID_IAAFTypeDefString, reinterpret_cast<void**>(&pTDString) ) );
		    checkResult( pAttribute->GetValue( sizeof(name),
		    			       reinterpret_cast<aafDataBuffer_t>(name), &bufLen ) );
		    checkExpression( wcscmp( AttributeValues[attributeCount], name ) == 0, AAFRESULT_TEST_FAILED );
		    

		    pAttributeTypeDef->Release();
		    pAttributeTypeDef = NULL;

		    pTDString->Release();
		    pTDString = NULL;

		    pAttribute->Release();
		    pAttribute = NULL;


		    attributeCount++;
		  }

		  checkExpression( 2 == attributeCount && atthr == AAFRESULT_NO_MORE_OBJECTS,
				   AAFRESULT_TEST_FAILED );

		  aafUID_t code;
		  checkResult( aMobInterface2->GetUsageCode( &code ) );
		  checkExpression( memcmp( &code, &kAAFUsage_SubClip, sizeof(code) ) == 0, AAFRESULT_TEST_FAILED );



		  pAttributesEnum->Release();
		  pAttributesEnum = NULL;
		    
		  enumTaggedVal->Release();
		  enumTaggedVal = NULL;
			
		  aMobInterface2->Release();
		  aMobInterface2 = NULL;
		  aMob->Release();
		  aMob = NULL;
		}




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

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

  if (slotIter)
    slotIter->Release();

  if (aMob)
    aMob->Release();

  if (mobIter)
    mobIter->Release();

  if (pHeader)
    pHeader->Release();

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

  return hr;
}
Ejemplo n.º 8
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;
	IAAFSequence			*pSequence = 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 number of mobs to force creation of the content storage.
	  // This is temporary as the content storage should be created by
	  // the call to OpenNewModify above.
	  aafNumSlots_t n;
	  checkResult(pHeader->CountMobs(kAAFAllMob, &n));

	  // Get the AAF Dictionary so that we can create valid AAF objects.
	  checkResult(pHeader->GetDictionary(&pDictionary));
 
	  // Create a sequence withou attaching it to the file.
	  checkResult(CreateAAFSequence(pDictionary, &pSequence));
    
	  // Test the enumeration methods.
	  checkResult(TestEnumerator(pSequence));
	}
	catch (HRESULT& rResult)
	{
	  hr = rResult;
	}


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

	if (pDictionary)
	  pDictionary->Release();

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

	return hr;
}
Ejemplo n.º 9
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	IAAFFile			*pFile = NULL;
	bool				bFileOpen = false;
	IAAFHeader			*pHeader = NULL;
	IEnumAAFMobs		*mobIter = NULL;
	IAAFMob				*aMob = NULL;
	IEnumAAFMobSlots	*slotIter = NULL;
	IAAFMobSlot			*slot = NULL;
	aafNumSlots_t		numMobs, n, s;
	HRESULT				hr = S_OK;
	IAAFMobSlot*		pArray[2] = { NULL, NULL };
	IAAFMobSlot**		pArrayDef = pArray;
	aafUInt32			resultCount;
	IEnumAAFMobSlots	*slotClone = NULL;
	
	
	try
	{
		// Open the file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;
		
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));
		
		
		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);
		
		
		aafSearchCrit_t		criteria;
		criteria.searchTag = kAAFNoSearch;
		checkResult(pHeader->GetMobs (&criteria, &mobIter));
		
		for(n = 0; n < numMobs; n++)
		{
			aafWChar		name[500], slotName[500];
			aafNumSlots_t	numSlots;
			aafMobID_t		mobID;
			aafSlotID_t		trackID;
			
			checkResult(mobIter->NextOne (&aMob));
			checkResult(aMob->GetName (name, sizeof(name)));
			checkResult(aMob->GetMobID (&mobID));
			
			checkResult(aMob->CountSlots (&numSlots));
			checkExpression(5 == numSlots, AAFRESULT_TEST_FAILED);
			
			checkResult(aMob->GetSlots(&slotIter));
			
			/* Read and check all elements using NextOne */
			for(s = 0; s < numSlots; s++)
			{
				checkResult(slotIter->NextOne (&slot));
				checkResult(slot->GetName (slotName, sizeof(slotName)));
				checkResult(slot->GetSlotID(&trackID));
				checkExpression (wcscmp(slotName, slotNames[s]) == 0, AAFRESULT_TEST_FAILED);
				
				slot->Release();
				slot = NULL;
			}
			/* Read one past to make sure that it fails */
			checkExpression(slotIter->NextOne(&slot) != AAFRESULT_SUCCESS, AAFRESULT_TEST_FAILED);
			/* Reset, and check the first element again*/
			checkResult(slotIter->Reset());
			checkResult(slotIter->NextOne (&slot));
			checkResult(slot->GetName (slotName, sizeof(slotName)));
			checkResult(slot->GetSlotID(&trackID));
			checkExpression (wcscmp(slotName, slotNames[0]) == 0, AAFRESULT_TEST_FAILED);
			slot->Release();
			slot = NULL;
			/* Reset, Skip, and check the second element again*/
			checkResult(slotIter->Reset());
			checkResult(slotIter->Skip(1));
			checkResult(slotIter->NextOne (&slot));
			checkResult(slot->GetName (slotName, sizeof(slotName)));
			checkResult(slot->GetSlotID(&trackID));
			checkExpression (wcscmp(slotName, slotNames[1]) == 0, AAFRESULT_TEST_FAILED);
			slot->Release();
			slot = NULL;
			
			/* Reset, and read both elements */
			checkResult(slotIter->Reset());
			checkResult(slotIter->Next (2, (IAAFMobSlot **)&pArray, &resultCount));
			checkExpression (resultCount == 2, AAFRESULT_TEST_FAILED);
			checkResult(pArrayDef[0]->GetName (slotName, sizeof(slotName)));
			checkResult(pArrayDef[0]->GetSlotID(&trackID));
			checkExpression (wcscmp(slotName, slotNames[0]) == 0, AAFRESULT_TEST_FAILED);
			checkResult(pArrayDef[1]->GetName (slotName, sizeof(slotName)));
			checkResult(pArrayDef[1]->GetSlotID(&trackID));
			checkExpression (wcscmp(slotName, slotNames[1]) == 0, AAFRESULT_TEST_FAILED);
			pArrayDef[0]->Release();
			pArrayDef[0] = NULL;
			pArrayDef[1]->Release();
			pArrayDef[1] = NULL;

			/* Clone the enumerator, and read one element */
			checkResult(slotIter->Clone(&slotClone));
			checkResult(slotClone->Reset());
			checkResult(slotClone->NextOne (&slot));
			checkResult(slot->GetName (slotName, sizeof(slotName)));
			checkResult(slot->GetSlotID(&trackID));
			checkExpression (wcscmp(slotName, slotNames[0]) == 0, AAFRESULT_TEST_FAILED);
			slot->Release();
			slot = NULL;
			slotIter->Release();
			slotIter = NULL;
			slotClone->Release();
			slotClone = NULL;

			aMob->Release();
			aMob = NULL;
		}
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	
	// Cleanup object references
	if (slot)
		slot->Release();
	
	if (slotIter)
		slotIter->Release();
	
	if (aMob)
		aMob->Release();
	
	if (mobIter)
		mobIter->Release();
	
	if (pHeader)
		pHeader->Release();
	
	if (pFile)
	{  // Close file
		if (bFileOpen)
			pFile->Close();
		pFile->Release();
	}
	
	return hr;
}
Ejemplo n.º 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;
  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;
}
Ejemplo n.º 11
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	IAAFFile *					pFile = NULL;
	bool bFileOpen = false;
	IAAFHeader *				pHeader = NULL;
	IEnumAAFMobs *mobIter = NULL;
	IAAFMob			*aMob = NULL;
	IEnumAAFMobSlots	*slotIter = NULL;
	IEnumAAFTaggedValues* pCommentIterator = NULL;
	IAAFTaggedValue*		pComment = NULL;

	IAAFMobSlot		*slot = NULL;
	aafNumSlots_t	numMobs, n, slt;
	aafUInt32		numComments, bytesRead, com;
	HRESULT						hr = S_OK;
	aafWChar		tag[64];
	aafWChar		Value[64];
	aafSearchCrit_t	criteria;

	try
	{
		// Open the file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;

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

		criteria.searchTag = kAAFByMobKind;
		criteria.tags.mobKind = kAAFCompMob;


		checkResult(pHeader->CountMobs(kAAFCompMob, &numMobs));
		checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);


		checkResult(pHeader->GetMobs (&criteria, &mobIter));

		for(n = 0; n < numMobs; n++)
		{
			aafWChar		name[500], slotName[500];
			aafNumSlots_t	numSlots;
			aafMobID_t		mobID;
			aafSlotID_t		trackID;

			checkResult(mobIter->NextOne (&aMob));
			checkResult(aMob->GetName (name, sizeof(name)));
			checkResult(aMob->GetMobID (&mobID));

			// Check for comments
			checkResult(aMob->CountComments(&numComments));
			checkExpression(1 == numComments, AAFRESULT_TEST_FAILED);
			checkResult(aMob->GetComments(&pCommentIterator));
			for(com = 0; com < numComments; com++)
			{
				checkResult(pCommentIterator->NextOne(&pComment));
				checkResult(pComment->GetName(tag, sizeof(tag)));
				checkResult(pComment->GetValue( sizeof(Value), (unsigned char *)Value, &bytesRead));
				checkExpression(wcscmp(tag, TagNames)== 0, AAFRESULT_TEST_FAILED);
				checkExpression(wcscmp(Value, AltComment)== 0, AAFRESULT_TEST_FAILED);
				pComment->Release();
			}
			pCommentIterator->Release();
			
			checkResult(aMob->CountSlots (&numSlots));
			checkExpression(5 == numSlots, AAFRESULT_TEST_FAILED);

			checkResult(aMob->GetSlots(&slotIter));

			for(slt = 0; slt < numSlots; slt++)
			{
				checkResult(slotIter->NextOne (&slot));
				checkResult(slot->GetName (slotName, sizeof(slotName)));
				checkResult(slot->GetSlotID(&trackID));
				checkExpression (wcscmp(slotName, slotNames[slt]) == 0, AAFRESULT_TEST_FAILED);

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

			aMob->Release();
			aMob = NULL;
		}
	}
	catch (HRESULT& rResult)
	{
    hr = rResult;
	}

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

  if (slotIter)
    slotIter->Release();

  if (aMob)
    aMob->Release();

  if (mobIter)
    mobIter->Release();

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

  return hr;
}
Ejemplo n.º 12
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	IAAFFile *					pFile = NULL;
	IAAFHeader *				pHeader = NULL;
	IAAFSourceMob*				pSourceMob = NULL;
	IAAFMob*					pMob = NULL;
	IAAFEssenceDescriptor*		pEssDesc = NULL;
	IAAFBWFImportDescriptor*	pBWFImportDesc = NULL;
	IEnumAAFRIFFChunks*		pEnum = NULL;
	IAAFRIFFChunk*				pRIFFChunk = NULL;
	IEnumAAFMobs*				pMobIter = NULL;
	aafUInt32		numData, bytesRead, com, testID;
	aafLength_t 				testLength, testRIFFLen;
	aafPosition_t				dataPos;
	aafNumSlots_t				numMobs;
	char			Value[sizeof(RIFFChunksmiley)];
	char			Value2[sizeof(RIFFChunkfrowney)];
	HRESULT						hr = AAFRESULT_SUCCESS;

	checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));

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

		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		if (1 == numMobs )
		{
			checkResult(pHeader->GetMobs(NULL, &pMobIter));
			checkResult(pMobIter->NextOne(&pMob));
			checkResult(pMob->QueryInterface(IID_IAAFSourceMob, (void **)&pSourceMob));
			
			// Back into testing mode
			checkResult(pSourceMob->GetEssenceDescriptor(&pEssDesc));
			checkResult( pEssDesc->QueryInterface( IID_IAAFBWFImportDescriptor, (void**)&pBWFImportDesc ));	 
			checkResult(pBWFImportDesc->CountUnknownBWFChunks(&numData));
			
			checkExpression(1 == numData, AAFRESULT_TEST_FAILED);
			
			checkResult(pBWFImportDesc->GetUnknownBWFChunks(&pEnum));
			
			for(com = 0; com < numData; com++)
			{	
				checkResult(pEnum->NextOne(&pRIFFChunk));
				
				checkResult(pRIFFChunk->GetLength(&testRIFFLen));
				checkExpression((sizeof(RIFFChunksmiley)+sizeof(RIFFChunkfrowney)) == testRIFFLen, AAFRESULT_TEST_FAILED);
				checkResult(pRIFFChunk->Read( sizeof(Value), (unsigned char *)Value, &bytesRead));
				checkExpression(memcmp(Value, RIFFChunksmiley, sizeof(RIFFChunksmiley)) == 0, AAFRESULT_TEST_FAILED);
				checkResult(pRIFFChunk->Read( sizeof(Value2), (unsigned char *)Value2, &bytesRead));
				checkExpression(memcmp(Value2, RIFFChunkfrowney, sizeof(RIFFChunkfrowney)) == 0, AAFRESULT_TEST_FAILED);				
				
				checkResult(pRIFFChunk->GetPosition(&dataPos));
				checkExpression(dataPos==(sizeof(RIFFChunksmiley)+sizeof(RIFFChunkfrowney)), AAFRESULT_TEST_FAILED);
				checkResult(pRIFFChunk->SetPosition(0));
				checkResult(pRIFFChunk->Read( sizeof(Value), (unsigned char *)Value, &bytesRead));
				checkExpression(memcmp(Value, RIFFChunksmiley, sizeof(RIFFChunksmiley)) == 0, AAFRESULT_TEST_FAILED);
				
				pRIFFChunk->GetChunkID(&testID);	
				checkExpression(testID==chunkID, AAFRESULT_TEST_FAILED);
				pRIFFChunk->GetLength(&testLength);	
				checkExpression(testLength == sizeof(RIFFChunksmiley) + sizeof(RIFFChunkfrowney), AAFRESULT_TEST_FAILED);
				pRIFFChunk->Release();
				pRIFFChunk = NULL;
			}
			
			pEnum->Release();
			pEnum = NULL;
			pEssDesc->Release();
			pEssDesc = NULL;
								
			pBWFImportDesc->Release();
			pBWFImportDesc = NULL;

			pSourceMob->Release();
			pSourceMob = NULL;
				
			pMobIter->Release();
			pMobIter = NULL;
	
			
		}
		pMob->Release();
		pMob = NULL;
		
		pHeader->Release();
		pHeader = NULL;
		
		pFile->Close();
    	pFile->Release();
		pFile = NULL;

	return hr;
}
Ejemplo n.º 13
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	// IAAFSession *				pSession = NULL;
	IAAFFile *					pFile = NULL;
	IAAFHeader *				pHeader = NULL;
	IEnumAAFMobs*				pMobIter = NULL;
	IAAFMob*					pMob = NULL;
	IAAFMob*					pReferencedMob = NULL;
	IEnumAAFMobSlots*			pSlotIter = NULL;
	IAAFMobSlot*				pSlot = NULL;
	IAAFSegment*				pSegment = NULL;
	IAAFDescriptiveClip*				pDescClip = NULL;
	bool bFileOpen = false;
	aafSearchCrit_t				criteria;
	aafNumSlots_t				numMobs, numSlots;
	HRESULT						hr = AAFRESULT_SUCCESS;

	try
	{ 
    // Open the file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;
 
    // We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the number of mobs in the file (should be one)
		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		checkExpression(2 == numMobs, AAFRESULT_TEST_FAILED);

		// Enumerate over all Composition Mobs
		criteria.searchTag = kAAFByMobKind;
		criteria.tags.mobKind = kAAFCompMob;
		checkResult(pHeader->GetMobs(&criteria, &pMobIter));
		while (AAFRESULT_SUCCESS == pMobIter->NextOne(&pMob))
		{
			checkResult(pMob->CountSlots(&numSlots));
			checkExpression(1 == numSlots, AAFRESULT_TEST_FAILED);

			checkResult(pMob->GetSlots(&pSlotIter));
			while (AAFRESULT_SUCCESS == pSlotIter->NextOne(&pSlot))
			{
				// The segment should be a source clip...
				checkResult(pSlot->GetSegment(&pSegment));
				checkResult(pSegment->QueryInterface(IID_IAAFDescriptiveClip, (void **) &pDescClip));
				
				// Get, and test, the described slots from the marker.
			    aafUInt32 getDescribedSlotIDsVector[TestDescribedSlotIDsVectorSize];
			    aafUInt32 getDescribedSlotIDsVectorSize = 0;
			
			    checkResult( pDescClip->CountDescribedSlotIDs( &getDescribedSlotIDsVectorSize ) );
			    checkExpression( TestDescribedSlotIDsVectorSize == getDescribedSlotIDsVectorSize, AAFRESULT_TEST_FAILED );
			
			    checkExpression( AAFRESULT_SMALLBUF ==
					       pDescClip->GetDescribedSlotIDs( getDescribedSlotIDsVectorSize-1, getDescribedSlotIDsVector ),
					     AAFRESULT_TEST_FAILED );
			
			    checkResult( pDescClip->GetDescribedSlotIDs( getDescribedSlotIDsVectorSize, getDescribedSlotIDsVector ) );
			    checkExpression( 0 == memcmp( getDescribedSlotIDsVector, TestDescribedSlotIDsVector, sizeof(TestDescribedSlotIDsVector) ),
					     AAFRESULT_TEST_FAILED );
			
				
				
				pSlot->Release();
				pSlot = NULL;
			}

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

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

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

	if (pDescClip)
		pDescClip->Release();

	if (pSegment)
		pSegment->Release();

	if (pSlot)
		pSlot->Release();

	if (pSlotIter)
		pSlotIter->Release();

	if (pMob)
		pMob->Release();

	if (pMobIter)
		pMobIter->Release();

	if (pHeader)
		pHeader->Release();

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

	return hr;
}
Ejemplo n.º 14
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	// IAAFSession *				pSession = NULL;
	IAAFFile *					pFile = NULL;
	IAAFHeader *				pHeader = NULL;
	IAAFEssenceDescriptor		*pEdesc = NULL;
	IAAFSourceMob				*pSourceMob = NULL;
	IEnumAAFLocators *			pEnum = NULL;
	IAAFLocator	*				pLocator = NULL;
	IEnumAAFMobs *mobIter = NULL;
	IAAFMob			*aMob = NULL;
	aafUInt32					numLocators;
	aafUInt32					readLen;
	aafNumSlots_t	numMobs, n;
	HRESULT						hr = AAFRESULT_SUCCESS;
	aafWChar					readBuf[1024];
	bool bFileOpen = false;


	try
	{	  
    // Open the file.
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;

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

		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		if (1 != numMobs )
			checkResult(AAFRESULT_TEST_FAILED);


	//!!!	aafSearchCrit_t		criteria;
	//!!!	criteria.searchTag = kAAFNoSearch;

		checkResult(pHeader->GetMobs (NULL, &mobIter));
		for(n = 0; n < numMobs; n++)
		{
			aafWChar		name[500];
			aafMobID_t		mobID;

			checkResult(mobIter->NextOne (&aMob));
			checkResult(aMob->GetName (name, sizeof(name)));
			checkResult(aMob->GetMobID (&mobID));

			checkResult(aMob->QueryInterface (IID_IAAFSourceMob, (void **)&pSourceMob));
			checkResult(pSourceMob->GetEssenceDescriptor (&pEdesc));

			// Verify that there is now one locator
			checkResult(pEdesc->CountLocators(&numLocators));
			if (1 != numLocators)
				checkResult(AAFRESULT_TEST_FAILED);
		
			checkResult(pEdesc->GetLocators(&pEnum));

			// This should read the one real locator
			checkResult(pEnum->NextOne(&pLocator));

			checkResult(pLocator->GetPathBufLen (&readLen));
	//		if(readLen != strlen(TEST_PATH))
				
			checkResult(pLocator->GetPath (readBuf, readLen));

		// This should run off the end
			pLocator->Release();
			pLocator = NULL;
			hr = pEnum->NextOne(&pLocator);
			if (AAFRESULT_NO_MORE_OBJECTS != hr)
				checkResult(hr);
			else
				hr = AAFRESULT_SUCCESS; // reset result
		}


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

	
	// Cleanup...
	if (pLocator)
		pLocator->Release();

	if (pEnum)
		pEnum->Release();

	if (pEdesc)
		pEdesc->Release();

	if (pSourceMob)
		pSourceMob->Release();

	if (aMob)
		aMob->Release();

	if (mobIter)
		mobIter->Release();

	if (pHeader)
		pHeader->Release();

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

	// hr = pSession->EndSession();
	// if (AAFRESULT_SUCCESS != hr)
	//	return hr;

	// if (pSession) pSession->Release();
	
	return 	hr;
}
Ejemplo n.º 15
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	IAAFFile				*pFile = NULL;
	bool					bFileOpen = false;
	IAAFHeader				*pHeader = NULL;
	IEnumAAFMobs			*mobIter = NULL;
	IAAFMob					*aMob = NULL;
	IEnumAAFMobSlots		*slotIter = NULL;
	IAAFMobSlot				*slot = NULL;
	IAAFSegment				*pSeg = NULL;
	IAAFSourceClip			*pSourceClip = NULL;
	IAAFDataDef *            pDataDef = 0;
	IAAFDefObject *          pDefObj = 0;
	aafNumSlots_t			numMobs, n;
	aafSlotID_t				s;
	aafUInt32				length;
	HRESULT					hr = S_OK;
	aafUID_t				readUID, typeUID = kAAFDataDef_Picture;
	
	try
	{
		// Open the file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;
		
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));
		
		
		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);
		
		
		aafSearchCrit_t		criteria;
		criteria.searchTag = kAAFNoSearch;
		checkResult(pHeader->GetMobs (&criteria, &mobIter));
		
		for(n = 0; n < numMobs; n++)
		{
			aafWChar		name[500], slotName[500];
			aafNumSlots_t	numSlots;
			aafMobID_t		mobID;
			aafSlotID_t		trackID;
			
			checkResult(mobIter->NextOne (&aMob));
			checkResult(aMob->GetName (name, sizeof(name)));
			checkResult(aMob->GetMobID (&mobID));
			
			checkResult(aMob->CountSlots (&numSlots));
			checkExpression(5 == numSlots, AAFRESULT_TEST_FAILED);
			
			checkResult(aMob->GetSlots(&slotIter));
			
			for(s = 0; s < (aafSlotID_t)numSlots; s++)
			{
				checkResult(slotIter->NextOne (&slot));
				checkResult(slot->GetNameBufLen(&length));
				checkResult(slot->GetName (slotName, length));
				checkExpression (wcscmp(slotName, slotNames[s]) == 0, AAFRESULT_TEST_FAILED);
				checkResult(slot->GetSlotID(&trackID));
				checkExpression (trackID == s+1, AAFRESULT_TEST_FAILED);
				checkResult(slot->GetPhysicalNum(&trackID));
				checkExpression (trackID == s+2, AAFRESULT_TEST_FAILED);
				checkResult(slot->GetPhysicalNum(&trackID));
				checkResult(slot->GetDataDef(&pDataDef));
				checkResult(pDataDef->QueryInterface (IID_IAAFDefObject, (void **)&pDefObj));
				checkResult(pDefObj->GetAUID(&readUID));
				checkExpression (memcmp(&typeUID, &readUID, sizeof(typeUID)) == 0, AAFRESULT_TEST_FAILED);
				checkResult(slot->GetSegment(&pSeg));
				checkResult(pSeg->QueryInterface (IID_IAAFSourceClip, (void **)&pSourceClip));
				pDataDef->Release();
				pDataDef = 0;
				pDefObj->Release ();
				pDefObj = 0;
				pSourceClip->Release();
				pSourceClip = NULL;
				pSeg->Release();
				pSeg = NULL;
				slot->Release();
				slot = NULL;
			}
			
			aMob->Release();
			aMob = NULL;
		}
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	
	// Cleanup object references
	if (slot)
	  {
		slot->Release();
		slot = 0;
	  }
	
	if (pSeg)
	  {
		pSeg->Release();
		pSeg = 0;
	  }
	
	if (pSourceClip)
	  {
		pSourceClip->Release();
		pSourceClip = 0;
	  }
	
	if (slotIter)
	  {
		slotIter->Release();
		slotIter = 0;
	  }
	
	if (aMob)
	  {
		aMob->Release();
		aMob = 0;
	  }
	
	if (mobIter)
	  {
		mobIter->Release();
		mobIter = 0;
	  }
	
	if (pHeader)
	  {
		pHeader->Release();
		pHeader = 0;
	  }
	
	if (pDataDef)	
	  {
		pDataDef->Release();
		pDataDef = 0;
	  }

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

	if (pFile)
	{  // Close file
		if (bFileOpen)
			pFile->Close();
		pFile->Release();
		pFile = 0;
	}
	
	return hr;
}
Ejemplo n.º 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;
}
Ejemplo n.º 17
0
void HTMLClipTest::OpenHTMLClip()
{
  assert(_pHeader);

  HRESULT hr = S_OK;
  aafNumSlots_t compositionMobs = 0;
  IEnumAAFMobs *pEnumMobs = NULL;
  IAAFMob *pReferencingMob = NULL;
  IAAFCompositionMob *pCompositionMob = NULL;
  aafNumSlots_t mobSlots = 0;
  IEnumAAFMobSlots *pEnumSlots = NULL;
  IAAFMobSlot *pMobSlot = NULL;
  IAAFSegment *pSegment = NULL;
  IAAFHTMLClip *pHTMLClip = NULL;
  aafUInt32 bufSize = 0;
  aafUInt32 actualBufSize = 0;
  aafUInt32 actualLength = 0;
  wchar_t *pBeginAnchor = NULL;
  wchar_t *pEndAnchor = NULL;
  IAAFSourceReference *pSourceReference = NULL;
  aafMobID_t masterMobID = {0};
  IAAFMasterMob *pMasterMob = NULL;
  IAAFMob *pReferencedMob = NULL;


  try
  {
    // Get the number of composition mobs in the file (should be one)
    checkResult(_pHeader->CountMobs(kAAFCompMob, &compositionMobs));
    checkExpression(1 == compositionMobs, AAFRESULT_TEST_FAILED);

    // Get the composition mob. There should only be one.
    aafSearchCrit_t criteria;
    criteria.searchTag = kAAFByMobKind;
    criteria.tags.mobKind = kAAFCompMob;
    checkResult(_pHeader->GetMobs(&criteria, &pEnumMobs));
    checkResult(pEnumMobs->NextOne(&pReferencingMob));
    checkResult(pReferencingMob->QueryInterface(IID_IAAFCompositionMob, (void **)&pCompositionMob));

    // Get the html clip in the slot. There should be only one.
    checkResult(pReferencingMob->CountSlots(&mobSlots));
    checkExpression(1 == mobSlots, AAFRESULT_TEST_FAILED);
    checkResult(pReferencingMob->GetSlots(&pEnumSlots));
    checkResult(pEnumSlots->NextOne(&pMobSlot));
    checkResult(pMobSlot->GetSegment(&pSegment));
    checkResult(pSegment->QueryInterface(IID_IAAFHTMLClip, (void **)&pHTMLClip));

    // Validate the properties...
    checkResult(pHTMLClip->GetBeginAnchorBufLen(&bufSize));
    actualLength = wcslen(_beginAnchor) + 1;
    actualBufSize = actualLength * 2;
    checkExpression(bufSize == actualBufSize, AAFRESULT_TEST_FAILED);
    pBeginAnchor = new wchar_t[actualLength];
    checkExpression(NULL != pBeginAnchor, AAFRESULT_NOMEMORY);
    checkResult(pHTMLClip->GetBeginAnchor(pBeginAnchor, actualBufSize));
    checkExpression(0 == wcscmp(pBeginAnchor, _beginAnchor), AAFRESULT_TEST_FAILED);

    checkResult(pHTMLClip->GetEndAnchorBufLen(&bufSize));
    actualLength = wcslen(_endAnchor) + 1;
    actualBufSize = actualLength * 2;
    checkExpression(bufSize == actualBufSize, AAFRESULT_TEST_FAILED);
    pEndAnchor = new wchar_t[actualLength];
    checkExpression(NULL != pEndAnchor, AAFRESULT_NOMEMORY);
    checkResult(pHTMLClip->GetEndAnchor(pEndAnchor, actualBufSize));
    checkExpression(0 == wcscmp(pEndAnchor, _endAnchor), AAFRESULT_TEST_FAILED);
    

    // Attempt to "resolve" the reference and find the master mob.
    checkResult(pHTMLClip->QueryInterface(IID_IAAFSourceReference, (void **)&pSourceReference));  
    checkResult(pSourceReference->GetSourceID(&masterMobID));
    checkExpression(0 == memcmp(&masterMobID, &_referencedMobID, sizeof(masterMobID)), AAFRESULT_TEST_FAILED);
    checkResult(_pHeader->LookupMob(masterMobID, &pReferencedMob));
    checkResult(pReferencedMob->QueryInterface(IID_IAAFMasterMob, (void **)&pMasterMob));

    
    // Use EssenceAccess to read some html essence
      // Find the file mob for the html essence.
      // Find the corresponding html essence.
      // Read some html essence.
  }
  catch (HRESULT& rHR)
  {
    hr = rHR;
    // fall through and handle cleanup
  }

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

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

  if (pSourceReference)
  {
    pSourceReference->Release();
    pSourceReference = NULL;
  }
  
  if (pEndAnchor)
  {
    delete [] pEndAnchor;
    pEndAnchor = NULL;
  }
  
  if (pBeginAnchor)
  {
    delete [] pBeginAnchor;
    pBeginAnchor = NULL;
  }

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

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

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

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

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

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

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

  // Propogate the error if necessary.
  checkResult(hr);
}
Ejemplo n.º 18
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	// IAAFSession *				pSession = NULL;
	IAAFFile *					pFile = NULL;
	IAAFHeader *				pHeader = NULL;
	IEnumAAFMobs *mobIter = NULL;
	IAAFMob			*aMob = NULL;
	IAAFEssenceDescriptor		*pEdesc = NULL;
	IAAFSourceMob				*pSourceMob = NULL;
	IEnumAAFLocators *			pEnum = NULL;
	IAAFLocator	*				pLocator = NULL;
	aafUInt32					numLocators;
	aafNumSlots_t	numMobs, n;
	HRESULT						hr = AAFRESULT_SUCCESS;
	bool bFileOpen = false;


	try
	{	
    // Open the file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;

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

		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		checkExpression (1 == numMobs, AAFRESULT_TEST_FAILED);

		checkResult(pHeader->GetMobs (NULL, &mobIter));
		for(n = 0; n < numMobs; n++)
		{
			aafWChar		name[500];
			aafMobID_t		mobID;

			checkResult(mobIter->NextOne (&aMob));
			checkResult(aMob->GetName (name, sizeof(name)));
			checkResult(aMob->GetMobID (&mobID));

			checkResult(aMob->QueryInterface (IID_IAAFSourceMob, (void **)&pSourceMob));
			checkResult(pSourceMob->GetEssenceDescriptor (&pEdesc));

			// Verify that there is now one locator
			checkResult(pEdesc->CountLocators(&numLocators));
		 	checkExpression(20 == numLocators, AAFRESULT_TEST_FAILED);
		
			checkResult(pEdesc->GetLocators(&pEnum));

			// This should read the one real locator
			for ( n=0; n<numLocators; n++)
			{
				checkResult(pEnum->NextOne(&pLocator));

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

     		// We had better not succeed or get an unknown failure.
     		checkExpression(AAFRESULT_NO_MORE_OBJECTS == pEnum->NextOne(&pLocator),
                      AAFRESULT_TEST_FAILED);


			pEnum->Release();
			pEnum = NULL;
			
			pEdesc->Release();
			pEdesc = NULL;

			pSourceMob->Release();
			pSourceMob = NULL;

			aMob->Release();
			aMob = NULL;
		}
	}
	catch (HRESULT& rResult)
	{
    hr = rResult;
	}

	// Cleanup object references
	if (pLocator)
		pLocator->Release();
	
	if (pEnum)
		pEnum->Release();

	if (pEdesc)
		pEdesc->Release();

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

	if (mobIter)
		mobIter->Release();

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

	/*
	hr = pSession->EndSession();
 	if (AAFRESULT_SUCCESS != hr)
		return hr;
	*/

	return hr;
}
Ejemplo n.º 19
0
static HRESULT OpenAAFFile(aafWChar * pFileName)
{
	IAAFFile*					pFile = NULL;
	IAAFHeader*					pHeader = NULL;
	IAAFDictionary*				pDictionary = NULL;
	IAAFMob*					pMob = NULL;
	IAAFEssenceAccess*			pEssenceAccess = NULL;
	IAAFEssenceFormat*			pFormat = NULL;
	IEnumAAFMobs*				pMobIter = NULL;
	aafNumSlots_t				numMobs, numSlots;
	aafSearchCrit_t				criteria;
	aafMobID_t					mobID;
	IAAFDataDef					*pSoundDef = NULL;
	IAAFMobSlot*				pMobSlot = NULL;


	// Open an AAF file
	check(AAFFileOpenExistingRead (pFileName, 0, &pFile));
	check(pFile->GetHeader(&pHeader));

	// Open raw audio output file
	FILE		*output;
	const char	*output_file = "raw.pcm";

	if ((output = fopen(output_file, "wb")) == NULL)
	{
		perror(output_file);
		exit(1);
	}

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

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

	/* Check number of Mobs in file */
	check(pHeader->CountMobs(kAAFMasterMob, &numMobs));
	if (numMobs == 0)
	{
		printf("No Master Mobs found in AAF file\n");
		return 0;
	}

	printf("Found %d Master Mobs\n", numMobs);
	criteria.searchTag = kAAFByMobKind;
	criteria.tags.mobKind = kAAFMasterMob;
	check(pHeader->GetMobs(&criteria, &pMobIter));

	while (AAFRESULT_SUCCESS == pMobIter->NextOne(&pMob))
	{
		char mobIDstr[256];
		aafWChar	namebuf[1204];
		IAAFTimelineMobSlot* pTimelineMobSlot = NULL;
		IAAFDataDef *pDataDef = NULL;
		IAAFEssenceFormat			*fmtTemplate =  NULL;
		unsigned char *dataBuff = NULL;

		IEnumAAFMobSlots* pMobSlotIter = NULL;


		check(pMob->GetMobID (&mobID));
		check(pMob->GetName (namebuf, sizeof(namebuf)));
		MobIDtoString(mobID, mobIDstr);
		printf("    MasterMob Name = '%ls'\n", namebuf);
		printf("        (mobID %s)\n", mobIDstr);
		
		// Get the number of slots
		check(pMob->CountSlots(&numSlots));
		
		// Iterating through all Mob Slots

		check(pMob->GetSlots(&pMobSlotIter));
		while(AAFRESULT_SUCCESS == pMobSlotIter->NextOne(&pMobSlot))
		{
			// Check to see if it is an Audio Timeline Mob Slot
			HRESULT hr;
			aafUInt32 MobSlotID;
	
			hr=pMobSlot->QueryInterface(IID_IAAFTimelineMobSlot,(void **) &pTimelineMobSlot);
			if (SUCCEEDED(hr))
			{
				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)
				{
					IAAFMasterMob*			pMasterMob = NULL;

					// Prepare to get audio data: first get MobSlotID
					check(pMobSlot->GetSlotID(&MobSlotID));
	
					// Then get a Master Mob interface
					check(pMob->QueryInterface(IID_IAAFMasterMob, (void **)&pMasterMob));
					
					// Open the Essence Data
					check(pMasterMob->OpenEssence(MobSlotID,
											 	  NULL,	
												  kAAFMediaOpenReadOnly,
												  kAAFCompressionDisable, 
												  &pEssenceAccess));
					
					// Get the information about the format of the audio data.
					// The pFormat object must be setup with each specifier you
					// wish to access, otherwise you get AAFRESULT_FORMAT_NOT_FOUND.
					aafUInt32			audioSampleBits;
					aafRational_t		sampleRate;
					aafUInt32			numChannels;
					aafUInt32			maxSampleBytes;

					check(pEssenceAccess->GetEmptyFileFormat(&fmtTemplate));
					check(fmtTemplate->AddFormatSpecifier(kAAFAudioSampleBits, 0, NULL));
					check(fmtTemplate->AddFormatSpecifier(kAAFSampleRate, 0, NULL));
					check(fmtTemplate->AddFormatSpecifier(kAAFNumChannels, 0, NULL));
					check(fmtTemplate->AddFormatSpecifier(kAAFMaxSampleBytes, 0, NULL));
					check(pEssenceAccess->GetFileFormat(fmtTemplate, &pFormat));

					fmtTemplate->Release();
					fmtTemplate = NULL;
					
					aafInt32 fmtBytesRead;
					check(pFormat->GetFormatSpecifier(kAAFAudioSampleBits, sizeof(audioSampleBits),
									(aafDataBuffer_t)&audioSampleBits, &fmtBytesRead));
					check(pFormat->GetFormatSpecifier(kAAFSampleRate, sizeof(sampleRate),
									(aafDataBuffer_t)&sampleRate, &fmtBytesRead));
					check(pFormat->GetFormatSpecifier(kAAFNumChannels, sizeof(numChannels),
									(aafDataBuffer_t)&numChannels, &fmtBytesRead));
					check(pFormat->GetFormatSpecifier(kAAFMaxSampleBytes, sizeof(maxSampleBytes),
									(aafDataBuffer_t)&maxSampleBytes, &fmtBytesRead));

					pFormat->Release();
					pFormat = NULL;
			
					// Get the sample count which is in terms of EditRate
					aafLength_t sampleCount;
					check(pEssenceAccess->CountSamples(pSoundDef, &sampleCount));

					printf("\tSlotID %u: SampleBits=%d SampleRate=%d/%d NumChannels=%d MaxSampleBytes=%u\n",
								MobSlotID,
								audioSampleBits, sampleRate.numerator, sampleRate.denominator,
								numChannels, maxSampleBytes);
			
					printf("\t\tCountSamples=%"AAFFMT64"d\n", sampleCount);
	
					// Set a suitable buffer size						
					dataBuff = new unsigned char[maxSampleBytes];
	
					// Read samples until no more are available
					aafUInt32	samplesRead, actualBytesRead, total_samples = 0;
					while (true)
					{
						hr = (pEssenceAccess->ReadSamples(
										1, 					// number of samples to read
										maxSampleBytes,		// maximum buffer size
										dataBuff,			// output buffer for audio data
										&samplesRead,		// number of samples read
										&actualBytesRead));	// number of bytes read
						if (hr == AAFRESULT_EOF)
							break;
						else
							check(hr);
	
						if (actualBytesRead!=0)
						{
							total_samples += samplesRead;

							// Write out samples
							if ( fwrite(dataBuff, maxSampleBytes, 1, output) != 1 )
							{
								perror(output_file);
								return 1;
							}
						} 
					}
					printf("\tTotal samples = %u (written to %s)\n", total_samples, output_file);
					
					delete [] dataBuff;
					dataBuff = NULL;
					
					pEssenceAccess->Release();
					pEssenceAccess = NULL;
					pMasterMob->Release();
					pMasterMob = NULL;
				}
	
				pTimelineMobSlot->Release();
				pTimelineMobSlot = NULL;
	
				pDataDef->Release();
				pDataDef = NULL;
			}	
	
			pMobSlot->Release();
			pMobSlot = NULL;
		}
	
		pMobSlotIter->Release();
		pMobSlotIter = NULL;
	
		pMob->Release();
		pMob = NULL;
	}

	pMobIter->Release();
	pMobIter = NULL;

	return moduleErrorTmp;
}
Ejemplo n.º 20
0
static void ReadAAFFile(aafWChar * pFileName)
{
    HRESULT hr = S_OK;
    IAAFFile * pFile = NULL;

    hr = AAFFileOpenExistingRead (pFileName, AAF_FILE_MODE_LAZY_LOADING, &pFile);
    if (SUCCEEDED(hr))
    {
        IAAFHeader * pHeader = NULL;

        hr = pFile->GetHeader(&pHeader);
        check(hr); // display error message
        if (SUCCEEDED(hr))
        {
            IAAFIdentification *    pIdent = NULL;

            hr = pHeader->GetLastIdentification(&pIdent);
            check(hr); // display error message
            if (SUCCEEDED(hr))
            {
                printIdentification(pIdent);

                pIdent->Release();
                pIdent = NULL;

                // count Mobs
                aafNumSlots_t n;
                hr = pHeader->CountMobs(kAAFAllMob, &n);
                check(hr);
                printf("\nNumber of Mobs       = %d\n", n);

                // Header::Version, Header::ObjectModelVersion
                aafVersionType_t version = {0};
                check(pHeader->GetFileRevision (&version) );
                printf("\nHeader::Version      = %d.%d\n", version.major, version.minor);

                aafFileRev_t fileVersion = kAAFRev1;
                check(pFile->GetRevision (&fileVersion) );
                printf("\nHeader::ObjectModelVersion = %d", fileVersion);

                if (fileVersion == kAAFRev1)
                    printf(" (recognized as kAAFRev1)\n");
                else if (fileVersion == kAAFRev2)
                    printf(" (recognized as kAAFRev2)\n");
                else
                    printf("\n");

                // Show datadefs, with version
                IEnumAAFDataDefsSP pEnumDataDef;
                IAAFDictionarySP pDictionary;
                check(pHeader->GetDictionary(&pDictionary));
                check(pDictionary->GetDataDefs(&pEnumDataDef));
                IAAFDataDef* pDataDef;

                printf("\nDatadefs             = ");
                while (SUCCEEDED(pEnumDataDef->NextOne(&pDataDef)))
                {
                    IAAFDefObjectSP pDefObject;
                    check(pDataDef->QueryInterface(IID_IAAFDefObject, (void**)&pDefObject));
                    pDataDef->Release();
                    pDataDef = NULL;

                    aafUID_t id = {0};
                    check(pDefObject->GetAUID(&id));

                    aafWChar wchName[500];
                    char chName[1000];
                    check( pDefObject->GetName(wchName, sizeof (wchName)) );
                    convert(chName, sizeof(chName), wchName);

                    if (memcmp( &id, &kAAFDataDef_LegacyPicture, sizeof(id)) == 0)
                        printf("\"%s\" (recognized as legacy Picture)\n", chName);
                    else if (memcmp( &id, &kAAFDataDef_Picture, sizeof(id)) == 0)
                        printf("\"%s\" (recognized as Picture)\n", chName);
                    else if (memcmp( &id, &kAAFDataDef_LegacySound, sizeof(id)) == 0)
                        printf("\"%s\" (recognized as legacy Sound)\n", chName);
                    else if (memcmp( &id, &kAAFDataDef_Sound, sizeof(id)) == 0)
                        printf("\"%s\" (recognized as Sound)\n", chName);
                    else if (memcmp( &id, &kAAFDataDef_LegacyTimecode, sizeof(id)) == 0)
                        printf("\"%s\" (recognized as legacy Timecode)\n", chName);
                    else if (memcmp( &id, &kAAFDataDef_Timecode, sizeof(id)) == 0)
                        printf("\"%s\" (recognized as Timecode)\n", chName);
                    else if (memcmp( &id, &kAAFDataDef_PictureWithMatte, sizeof(id)) == 0)
                        printf("\"%s\" (recognized as PictureWithMatte)\n", chName);
                    else if (memcmp( &id, &kAAFDataDef_Edgecode, sizeof(id)) == 0)
                        printf("\"%s\" (recognized as Edgecode)\n", chName);
                    else if (memcmp( &id, &kAAFDataDef_Auxiliary, sizeof(id)) == 0)
                        printf("\"%s\" (recognized as Auxiliary)\n", chName);
                    else if (memcmp( &id, &kAAFDataDef_DescriptiveMetadata, sizeof(id)) == 0)
                        printf("\"%s\" (recognized as DescriptiveMetadata)\n", chName);
                    else if (memcmp( &id, &kAAFDataDef_Matte, sizeof(id)) == 0)
                        printf("\"%s\" (recognized as Matte)\n", chName);
                    else
                        printf("\"%s\"\n", chName);
                    printf("                       ");
                }

                // Check if file contains TypeDefs known to cause a v1.0 reader to assert.
                // Known instances of this are UInt32Set and AUIDSet added to the v1.1 SDK.
                // Cannot use Dictionary::LookupTypeDef to check for them, because this
                // has the side effect of registering the typedef we are checking for
                // from the built-in model. Instead, iterate through typedefs (in file)
                // and check for the known instances.
                printf("\nTypes incompatible with SDK v1.0.x =");
                IEnumAAFTypeDefsSP pEnumTypeDef;
                check(pDictionary->GetTypeDefs(&pEnumTypeDef));
                IAAFTypeDef* pTypeDef;
                bool foundToxic = false;
                while (SUCCEEDED(pEnumTypeDef->NextOne(&pTypeDef)))
                {
                    IAAFMetaDefinitionSP pMetaDef;
                    check(pTypeDef->QueryInterface(IID_IAAFMetaDefinition, (void**)&pMetaDef));
                    pTypeDef->Release();
                    pTypeDef = NULL;

                    aafUID_t typeUID;
                    check(pMetaDef->GetAUID(&typeUID));

                    aafWChar wchName[500];
                    char chName[1000];
                    check( pMetaDef->GetName(wchName, sizeof (wchName)) );
                    convert(chName, sizeof(chName), wchName);

                    if ((memcmp( &typeUID, &kAAFTypeID_AUIDSet, sizeof(typeUID)) == 0)
                            || (memcmp( &typeUID, &kAAFTypeID_UInt32Set, sizeof(typeUID)) == 0))
                    {
                        printf(" %s", chName);
                        foundToxic = true;
                    }
                }
                if (!foundToxic)
                    printf(" (none)");
                printf("\n\n");

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

        hr = pFile->Close();
        check(hr);

        pFile->Release();
        pFile = NULL;

        // Get file kind.
        // Since AAF SDK v1.0.2, the file kind actually identifies the implementation
        // of the file kind, from which the file kind is inferred.
        aafUID_t fileKind = {0};
        aafBool isAAFFile = kAAFFalse;

        check(AAFFileIsAAFFile(pFileName, &fileKind, &isAAFFile));
        if (isAAFFile)
        {
            if (memcmp( &fileKind, &kAAFFileKind_AafM512Binary, sizeof(fileKind)) == 0)
                printf("Filekind             = 512-byte SS (reading with Microsoft)\n");
            else if (memcmp( &fileKind, &kAAFFileKind_AafS512Binary, sizeof(fileKind)) == 0)
                printf("Filekind             = 512-byte SS (reading with Schemasoft)\n");
            else if (memcmp( &fileKind, &kAAFFileKind_AafG512Binary, sizeof(fileKind)) == 0)
                printf("Filekind             = 512-byte SS (reading with GSF)\n");
            else if (memcmp( &fileKind, &kAAFFileKind_Aaf512Binary, sizeof(fileKind)) == 0)
                printf("Filekind             = 512-byte SS (reading with default implementation)\n");
            else if (memcmp( &fileKind, &kAAFFileKind_AafM4KBinary, sizeof(fileKind)) == 0)
                printf("Filekind             = 4096-byte SS (reading with Microsoft)\n");
            else if (memcmp( &fileKind, &kAAFFileKind_AafS4KBinary, sizeof(fileKind)) == 0)
                printf("Filekind             = 4096-byte SS (reading with Schemasoft)\n");
            else if (memcmp( &fileKind, &kAAFFileKind_AafG4KBinary, sizeof(fileKind)) == 0)
                printf("Filekind             = 4096-byte SS (reading with GSF)\n");
            else if (memcmp( &fileKind, &kAAFFileKind_Aaf4KBinary, sizeof(fileKind)) == 0)
                printf("Filekind             = 4096-byte SS (reading with default implementation)\n");
            else
                printf("Filekind             = Recognized by SDK but unknown to AAFInfo\n");
        }
    }
    else
    {
        fprintf(stderr, "Error : Failed to open file (result = %0x).\n", hr);
        exit(1);
    }
}
Ejemplo n.º 21
0
static HRESULT OpenAAFFile(aafWChar * pFileName, bool comp_enable)
{
	IAAFFile*					pFile = NULL;
	IAAFHeader*					pHeader = NULL;
	IAAFDictionary*				pDictionary = NULL;
	IAAFMob*					pMob = NULL;
	IAAFEssenceAccess*			pEssenceAccess = NULL;
	IEnumAAFMobs*				pMobIter = NULL;
	aafNumSlots_t				numMobs, numSlots;
	aafSearchCrit_t				criteria;
	aafMobID_t					mobID;
	IAAFDataDef					*pPictureDef = NULL;
	IAAFMobSlot*				pMobSlot = NULL;


	// Open an AAF file
	check(AAFFileOpenExistingRead (pFileName, 0, &pFile));
	check(pFile->GetHeader(&pHeader));

	// Open raw video output file
	FILE		*output;
	const char	*output_file = comp_enable ? "raw.uyvy" : "raw.mjpeg";

	if ((output = fopen(output_file, "wb")) == NULL)
	{
		perror(output_file);
		exit(1);
	}

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

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

	/* Check number of Mobs in file */
	check(pHeader->CountMobs(kAAFMasterMob, &numMobs));
	if (numMobs == 0)
		return 0;

	printf("Found %d Master Mobs\n", numMobs);
	criteria.searchTag = kAAFByMobKind;
	criteria.tags.mobKind = kAAFMasterMob;
	check(pHeader->GetMobs(&criteria, &pMobIter));

	while (AAFRESULT_SUCCESS == pMobIter->NextOne(&pMob))
	{
		char mobIDstr[256];
		char mobName[256];
		aafWChar	namebuf[1204];
		IAAFTimelineMobSlot* pTimelineMobSlot = NULL;
		IAAFDataDef *pDataDef = NULL;

		IEnumAAFMobSlots* pMobSlotIter = NULL;


		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);
		
		// Get the number of slots
		check(pMob->CountSlots(&numSlots));
		
		// Iterating through all Mob Slots

		check(pMob->GetSlots(&pMobSlotIter));
		while(AAFRESULT_SUCCESS == pMobSlotIter->NextOne(&pMobSlot))
		{
			// Check to see if it is a Video Timeline Mob Slot
			HRESULT hr;
	
			hr = pMobSlot->QueryInterface(IID_IAAFTimelineMobSlot,(void **) &pTimelineMobSlot);
			if (FAILED(hr))
			{
				pMobSlot->Release();
				pMobSlot = NULL;
				continue;
			}

			check(pMobSlot->GetDataDef(&pDataDef));

			// Check that we have a picture data def
			aafBool bIsPictureKind = kAAFFalse;
			check(pDataDef->IsPictureKind(&bIsPictureKind));

			if (kAAFTrue != bIsPictureKind)
			{
				pTimelineMobSlot->Release();
				pTimelineMobSlot = NULL;

				pDataDef->Release();
				pDataDef = NULL;
				continue;			// skip non-picture data defs
			}

			aafUInt32 MobSlotID;
			IAAFMasterMob*			pMasterMob = NULL;

			// Prepare to get video data: first get MobSlotID
			check(pMobSlot->GetSlotID(&MobSlotID));

			// Then get a Master Mob interface
			check(pMob->QueryInterface(IID_IAAFMasterMob, (void **)&pMasterMob));
			
			printf("    Opening slot %d with %s\n", MobSlotID, comp_enable ? "CompressionEnable" : "CompressionDisable");

			// Open the Essence Data
			check(pMasterMob->OpenEssence(MobSlotID,
									 	  NULL,	
										  kAAFMediaOpenReadOnly,
										  comp_enable ? kAAFCompressionEnable : kAAFCompressionDisable, 
										  &pEssenceAccess));

			// First put the codec into YUV pixel format
			IAAFEssenceFormat*	pSetFormat = NULL;
			aafInt32			YUV_pixel = kAAFColorSpaceYUV;
			check(pEssenceAccess->GetEmptyFileFormat(&pSetFormat));
			check(pSetFormat->AddFormatSpecifier(kAAFPixelFormat, 4, (unsigned char *) &YUV_pixel));
			check(pEssenceAccess->PutFileFormat(pSetFormat));
			pSetFormat->Release();

			// Get the information about the format of the video data.
			// The pFormat object must be setup with each specifier you
			// wish to access, otherwise you get AAFRESULT_FORMAT_NOT_FOUND.
			aafRational_t		sampleRate;
			aafUInt32			maxSampleSize;
			aafRect_t			storedRect;
			aafFrameLayout_t	frameLayout;

			IAAFEssenceFormat			*fmtTemplate =  NULL;
			IAAFEssenceFormat*			pFormat = NULL;
			check(pEssenceAccess->GetEmptyFileFormat (&fmtTemplate));
			check(fmtTemplate->AddFormatSpecifier(kAAFSampleRate, 0, NULL));
			check(fmtTemplate->AddFormatSpecifier(kAAFMaxSampleBytes, 0, NULL));
			check(fmtTemplate->AddFormatSpecifier(kAAFStoredRect, 0, NULL));
			check(fmtTemplate->AddFormatSpecifier(kAAFFrameLayout, 0, NULL));
			check(pEssenceAccess->GetFileFormat(fmtTemplate, &pFormat));

			fmtTemplate->Release();
			fmtTemplate = NULL;
			
			aafInt32 fmtBytesRead;
			check(pFormat->GetFormatSpecifier(kAAFSampleRate, sizeof(sampleRate),
							(aafDataBuffer_t)&sampleRate, &fmtBytesRead));
			check(pFormat->GetFormatSpecifier(kAAFMaxSampleBytes, sizeof(maxSampleSize),
							(aafDataBuffer_t)&maxSampleSize, &fmtBytesRead));
			check(pFormat->GetFormatSpecifier(kAAFStoredRect, sizeof(storedRect),
							(aafDataBuffer_t)&storedRect, &fmtBytesRead));
			check(pFormat->GetFormatSpecifier(kAAFFrameLayout, sizeof(frameLayout),
							(aafDataBuffer_t)&frameLayout, &fmtBytesRead));

			pFormat->Release();
			pFormat = NULL;
	
			// Get the sample count which is in terms of EditRate
			aafLength_t sampleCount;
			check(pEssenceAccess->CountSamples(pPictureDef, &sampleCount));

			const char *frameLayoutStr = "";
			switch (frameLayout)
			{
				case kAAFFullFrame: frameLayoutStr = "FullFrame"; break;
				case kAAFOneField: frameLayoutStr = "OneField"; break;
				case kAAFSeparateFields: frameLayoutStr = "SeparateFields"; break;
				case kAAFMixedFields: frameLayoutStr = "MixedFields"; break;
				default: break;
			}
			printf("\tSlotID %u: SampleRate=%d/%d MaxSampleBytes=%u StoredRect=%dx%d\n",
						MobSlotID, sampleRate.numerator, sampleRate.denominator,
						maxSampleSize, storedRect.xSize, storedRect.ySize);
	
			printf("\t\tFrameLayout=%s CountSamples=%"AAFFMT64"d\n", frameLayoutStr, sampleCount);

			// Buffer to receive samples from ReadSamples
			aafUInt8 *dataBuf = new aafUInt8[maxSampleSize];

			// Buffer to recombine separated fields into interleaved fields
			aafUInt8 *recombined_buf = new aafUInt8[maxSampleSize];

			// Read samples until no more are available
			aafUInt32	samplesRead, actualBytesRead, total_samples = 0;
			while (true)
			{
				hr = (pEssenceAccess->ReadSamples(
								1, 					// number of samples to read
								maxSampleSize,		// maximum buffer size
								dataBuf,			// output buffer for audio data
								&samplesRead,		// number of samples read
								&actualBytesRead));	// number of bytes read
				if (hr == AAFRESULT_EOF)
					break;
				else
					check(hr);

				aaf_assert(actualBytesRead != 0, "actualBytesRead != 0");

				total_samples += samplesRead;

				aafUInt8* saveBuf = dataBuf;
				if (comp_enable && frameLayout == kAAFSeparateFields) {
					// recombine fields into uncompressed frame when decompressing
					recombine_fields(dataBuf, recombined_buf, storedRect.xSize, storedRect.ySize);
					saveBuf = recombined_buf;
				}

				// Write out video
				if ( fwrite(saveBuf, maxSampleSize, 1, output) != 1 )
				{
					perror(output_file);
					return 1;
				}
			}
			printf("\tTotal samples=%u - written to %s\n", total_samples, output_file);
			
			delete [] dataBuf;
			delete [] recombined_buf;

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

	pMobIter->Release();
	pMobIter = NULL;

	return moduleErrorTmp;
}
Ejemplo n.º 22
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	IAAFFile *					pFile = NULL;
	bool 						bFileOpen = false;
	IAAFHeader *				pHeader = NULL;
	aafNumSlots_t				numMobs, i;
	HRESULT						hr = S_OK;
	HRESULT						localhr = S_OK;
	IEnumAAFMobs 				*mobIter = NULL;
	IEnumAAFMobs 				*cloneMobIter = NULL;
	IAAFMob						*aMob = NULL;
	IAAFMob						**mobArray = NULL;
	aafSearchCrit_t				criteria;
	aafUInt32					numFetched = 0;


  try
  {
    // Open the file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;
 
    // We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

	  // Make sure that we have one master, one file, and one composition (three total)
	  checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
	  checkExpression (3 == numMobs, AAFRESULT_TEST_FAILED);

	  
	  criteria.searchTag = kAAFNoSearch;
	  checkResult(pHeader->GetMobs (&criteria, &mobIter));
	  

/* Test the Reset method *******************************/
	if (mobIter->Reset() == AAFRESULT_SUCCESS)
		cout<< "	Reset() ...		Passed" << endl;	
	else	{
		cout<< "	Reset() ...		Failed!!!" << endl;	
		hr = AAFRESULT_TEST_FAILED;
	}


/* Test the NextOne method ******************************/
	
	// Call NextOne once for each mob for a total of numMobs times	
	for (i=0; i<numMobs; i++)	{
		if (mobIter->NextOne(&aMob) == AAFRESULT_SUCCESS)	{
			aMob->Release();
			aMob = NULL;
		}
		else
			localhr = AAFRESULT_TEST_FAILED;
	}

	// Make sure we are at the end
	if (mobIter->NextOne(&aMob) != AAFRESULT_NO_MORE_OBJECTS)
			localhr = AAFRESULT_TEST_FAILED;
	
	mobIter->Reset();
	// this should return AAFRESULT_NULL_PARAM
	if (mobIter->NextOne(NULL) != AAFRESULT_NULL_PARAM)
			localhr = AAFRESULT_TEST_FAILED;

	if (SUCCEEDED(localhr))
		cout<< "	NextOne() ...	Passed" << endl;	
	else	{
		cout<< "	NextOne() ...	Failed!!!" << endl;	
		hr = AAFRESULT_TEST_FAILED;
	}

/* Test the Skip method ******************************/

	localhr = S_OK;
	mobIter->Reset();
	
	// skip over each Mob one at a time.
	for (i=0; i<numMobs; i++)
		if (mobIter->Skip(1) != AAFRESULT_SUCCESS)
			localhr = AAFRESULT_TEST_FAILED;

	// Make sure we are at the end.
	if (mobIter->Skip(1) != AAFRESULT_NO_MORE_OBJECTS)
			localhr = AAFRESULT_TEST_FAILED;
	
	mobIter->Reset();
	// Skip over multiple Mobs at a time.		
	for (i=2; i<=numMobs; i++)	{
		if (mobIter->Skip(i) != AAFRESULT_SUCCESS)
			localhr = AAFRESULT_TEST_FAILED;

		mobIter->Reset();
	}

	// Make sure we are at the end.
	if (mobIter->Skip(numMobs+1) != AAFRESULT_NO_MORE_OBJECTS)
			localhr = AAFRESULT_TEST_FAILED;
			
	if (SUCCEEDED(localhr))
		cout<< "	Skip() ...		Passed" << endl;
	else	{
		cout<< "	Skip() ...		Failed!!!" << endl;
		hr = AAFRESULT_TEST_FAILED;
	}

/* Next()  ******************************************/

	mobArray = new IAAFMob *[numMobs];

	localhr = S_OK;
	numFetched = 1;

	// Iterate thru the Mobs using Next doing 1 at a time
	mobIter->Reset();
	for ( i=0; i<numMobs ;i++)	{
		if (mobIter->Next(1, &aMob, &numFetched) == AAFRESULT_SUCCESS)	{
			aMob->Release();
	 	    aMob = NULL;

			if (1 != numFetched)
				localhr = AAFRESULT_TEST_FAILED;
		}
		else
			localhr = AAFRESULT_TEST_FAILED;
	}
			
	// Make sure we are at the end
	if (mobIter->Next(1, &aMob, &numFetched) != AAFRESULT_NO_MORE_OBJECTS)
		localhr = AAFRESULT_TEST_FAILED;
	if(numFetched != 0)
		localhr = AAFRESULT_TEST_FAILED;
		
	// Test the Next method filling out an array of Mobs
	numFetched = 0;
	mobIter->Reset();
	for ( i=2; i<=numMobs ;i++)	{
		if (mobIter->Next(i, mobArray, &numFetched) == AAFRESULT_SUCCESS)	{
			if (i != numFetched)
				localhr = AAFRESULT_TEST_FAILED;

			for (i = 0; i < numFetched; i++)
				if (mobArray[i] != NULL)	// should have been set
				{
					mobArray[i]->Release();
					mobArray[i] = NULL;
				}
				else
					localhr = AAFRESULT_TEST_FAILED;
		}
		else
			localhr = AAFRESULT_TEST_FAILED;
			
		mobIter->Reset();
	}

	// Make sure we can't get more Mobs than numMobs	
	if (mobIter->Next(i+1, mobArray, &numFetched) != AAFRESULT_NO_MORE_OBJECTS)
		localhr = AAFRESULT_TEST_FAILED;

	if (numMobs != numFetched)
		localhr = AAFRESULT_TEST_FAILED;
		
	for (i = 0; i < numMobs; i++)
		if (mobArray[i] != NULL)	
		{
			mobArray[i]->Release();
			mobArray[i] = NULL;
		}
		else
			localhr = AAFRESULT_TEST_FAILED;
		
	
	mobIter->Reset();
	mobIter->Skip(2);

	// Make sure we can't go past the end to fill the array
	if (mobIter->Next(numMobs, mobArray, &numFetched) != AAFRESULT_NO_MORE_OBJECTS)
		localhr = AAFRESULT_TEST_FAILED;

	if ((numMobs-2) != numFetched)
		localhr = AAFRESULT_TEST_FAILED;
		
	for (i = 0; i < numMobs-2; i++)
		if (mobArray[i] != NULL)
		{
			mobArray[i]->Release();
			mobArray[i] = NULL;
		}
		else
			localhr = AAFRESULT_TEST_FAILED;
			
	mobIter->Reset();
	// Make sure it returns AAFRESULT_NULL_PARAM
	if (mobIter->Next(1, NULL, &numFetched) != AAFRESULT_NULL_PARAM)
		localhr = AAFRESULT_TEST_FAILED;

	// Make sure it returns E_INVALIDARG	
	if (mobIter->Next(1, mobArray, &numFetched) != AAFRESULT_SUCCESS)
		localhr = AAFRESULT_TEST_FAILED;
	else
	{
		for (i = 0; i < numFetched; i++)
		if (mobArray[i] != NULL)
		{
			mobArray[i]->Release();
			mobArray[i] = NULL;
		}
		else
			localhr = AAFRESULT_TEST_FAILED;		
	}

	if (SUCCEEDED(localhr))
		cout<< "	Next() ...		Passed" << endl;
	else	{
		cout<< "	Next() ...		Failed!!!" << endl;
		hr = AAFRESULT_TEST_FAILED;
	}


/* Clone() ************************************/

	// Test the Clone method with with enumerator at begining
	localhr = S_OK;
	mobIter->Reset();
	if (mobIter->Clone(&cloneMobIter) == AAFRESULT_SUCCESS)	{
		for (i=0; i < numMobs; i++)	{
			if (cloneMobIter->NextOne(&aMob) == AAFRESULT_SUCCESS)	{
				aMob->Release();
    			aMob = NULL;
			}
			else
				localhr = AAFRESULT_TEST_FAILED;		
		}

		if (cloneMobIter->NextOne(&aMob) != AAFRESULT_NO_MORE_OBJECTS)
			localhr = AAFRESULT_TEST_FAILED;

		cloneMobIter->Reset();
		if (cloneMobIter->Next(numMobs, mobArray, &numFetched) 
			!= AAFRESULT_SUCCESS)
			localhr = AAFRESULT_TEST_FAILED;

		if (numMobs != numFetched)
			localhr = AAFRESULT_TEST_FAILED;
		
		for (i = 0; i < numMobs; i++) {
			if (mobArray[i] != NULL)	{
				mobArray[i]->Release();
				mobArray[i] = NULL;
			}
			else
				localhr = AAFRESULT_TEST_FAILED;
		}

		cloneMobIter->Reset();

		if (cloneMobIter->Next(numMobs+1, mobArray, &numFetched) 
			!= AAFRESULT_NO_MORE_OBJECTS)
			localhr = AAFRESULT_TEST_FAILED;

		if (numMobs != numFetched)
			localhr = AAFRESULT_TEST_FAILED;
		
		for (i = 0; i < numMobs; i++) {
			if (mobArray[i] != NULL)	{
				mobArray[i]->Release();
				mobArray[i] = NULL;
			}
			else
				localhr = AAFRESULT_TEST_FAILED;
		}

		cloneMobIter->Reset();
		cloneMobIter->Skip(1);

		if (cloneMobIter->Next(numMobs, mobArray, &numFetched) 
			!= AAFRESULT_NO_MORE_OBJECTS)
			localhr = AAFRESULT_TEST_FAILED;

		if ((numMobs-1) != numFetched)
			localhr = AAFRESULT_TEST_FAILED;
		
		for (i = 0; i < numMobs-1; i++) {
			if (mobArray[i] != NULL)	{
				mobArray[i]->Release();
				mobArray[i] = NULL;
			}
			else
				localhr = AAFRESULT_TEST_FAILED;
		}
	
		cloneMobIter->Release();
	 	cloneMobIter = NULL;
	}
	else
		localhr = AAFRESULT_TEST_FAILED;
	
	// Test the Clone method with with enumerator at end.
	// Indirectly tests the Skip and Reset methods.
	mobIter->Reset();
	mobIter->Skip(numMobs-1);
	if (mobIter->Clone(&cloneMobIter) == AAFRESULT_SUCCESS) {
		if (cloneMobIter->NextOne(&aMob) == AAFRESULT_SUCCESS)	{
			aMob->Release();
		    aMob = NULL;
		}
		if (cloneMobIter->NextOne(&aMob) != AAFRESULT_NO_MORE_OBJECTS)
			localhr = AAFRESULT_TEST_FAILED;

		cloneMobIter->Release();
  		cloneMobIter = NULL;
	}
	else
		localhr = AAFRESULT_TEST_FAILED;

	// Test the Clone method with with enumerator in the middle.
	// Indirectly tests the Skip and Reset methods.
	mobIter->Reset();
	mobIter->Skip(numMobs-2);
	if (mobIter->Clone(&cloneMobIter) == AAFRESULT_SUCCESS)	{
		cloneMobIter->Skip(1);
		if (cloneMobIter->NextOne(&aMob) == AAFRESULT_SUCCESS)	{
			aMob->Release();
		    aMob = NULL;
		}
		else
			localhr = AAFRESULT_TEST_FAILED;
		
		if (cloneMobIter->NextOne(&aMob) != AAFRESULT_NO_MORE_OBJECTS)
			localhr = AAFRESULT_TEST_FAILED;

		cloneMobIter->Release();
  		cloneMobIter = NULL;
	}
	else
		localhr = AAFRESULT_TEST_FAILED;


	mobIter->Reset();
	if (mobIter->Clone(&cloneMobIter) == AAFRESULT_SUCCESS)	{
		if (cloneMobIter->Next(1, NULL, &numFetched) != AAFRESULT_NULL_PARAM)
			localhr = AAFRESULT_TEST_FAILED;
	
		if (cloneMobIter->Next(1, mobArray, &numFetched) != AAFRESULT_SUCCESS)
			localhr = AAFRESULT_TEST_FAILED;
		else
		{
			for (i = 0; i < numFetched; i++) {
				if (mobArray[i] != NULL)
				{
					mobArray[i]->Release();
					mobArray[i] = NULL;
				}
				else
					localhr = AAFRESULT_TEST_FAILED;		
			}
		}

		cloneMobIter->Release();
 		cloneMobIter = NULL;
	}
	else
		localhr = AAFRESULT_TEST_FAILED;

	
	if (SUCCEEDED(localhr))
		cout<< "	Clone() ...		Passed" << endl;
	else	{
		cout<< "	Clone() ...		Failed!!!" << endl;
		hr = AAFRESULT_TEST_FAILED;
	}
	  	  	  
	  checkResult(pHeader->CountMobs(kAAFMasterMob, &numMobs));
	  checkExpression (1 == numMobs, AAFRESULT_TEST_FAILED);

	  checkResult(pHeader->CountMobs(kAAFFileMob, &numMobs));
	  checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);

	  checkResult(pHeader->CountMobs(kAAFCompMob, &numMobs));
	  checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);


	  // Test usageCode search criteria.
	  {
	    // Should find one TopLevel mob, and two Template mobs.

	    // There should be one mob with usage code TopLevel, and it should be
	    // a composition mob.
	    aafSearchCrit_t usageCrit;
	    usageCrit.searchTag = kAAFByUsageCode;
	    usageCrit.tags.usageCode = kAAFUsage_TopLevel; 
	    CheckMobsByUsageCode( pHeader, usageCrit, 1, true, IID_IAAFCompositionMob );

	    // There should be one composition mob with usage code TopLevel.
	    usageCrit.searchTag = kAAFByCompositionMobUsageCode;
	    usageCrit.tags.usageCode = kAAFUsage_TopLevel; 
	    CheckMobsByUsageCode( pHeader, usageCrit, 1, true, IID_IAAFCompositionMob );

	    // There should be two mobs with usage code Template.  They are of difference
	    // types, hence, don't check the type.
	    usageCrit.searchTag = kAAFByUsageCode;
	    usageCrit.tags.usageCode = kAAFUsage_Template; 
	    CheckMobsByUsageCode( pHeader, usageCrit, 2, false, IID_IUnknown );

	    // One of the Template mobs should be a SourceMob, the other should be MasterMob.
	    usageCrit.searchTag = kAAFBySourceMobUsageCode;
	    usageCrit.tags.usageCode = kAAFUsage_Template; 
	    CheckMobsByUsageCode( pHeader, usageCrit, 1, true, IID_IAAFSourceMob );

	    usageCrit.searchTag = kAAFByMasterMobUsageCode;
	    usageCrit.tags.usageCode = kAAFUsage_Template; 
	    CheckMobsByUsageCode( pHeader, usageCrit, 1, true, IID_IAAFMasterMob ); 
	  }

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

	// Cleanup and return
	
	delete [] mobArray;

	if (mobIter)
		mobIter->Release();

	if (pHeader)
		pHeader->Release();

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

	return hr;
}
Ejemplo n.º 23
0
static HRESULT ReadAAFFile(aafWChar* pFileName)
{
	IAAFFile*		pFile = NULL;
	bool bFileOpen = false;
	IAAFHeader*		pHeader = NULL;
	IEnumAAFMobs*	pMobIter = NULL;
	IAAFMob*		pMob = NULL;
	IAAFMasterMob*		pMasterMob = NULL;
	IEnumAAFMobSlots*	pSlotIter = NULL;
	IAAFMobSlot*		pSlot;
	aafNumSlots_t	numMobs;
	aafSearchCrit_t	criteria;
	IAAFSearchSource*  pSearchSource = NULL;
	IAAFFindSourceInfo*  pSourceInfo = NULL;
	IAAFMob* si_mob = NULL;  //mob used by SourceInfo intf.

	HRESULT			hr = S_OK;
	
	
	
	try
	{
		// Open the AAF file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;
		
		// Get the AAF file header.
		checkResult(pFile->GetHeader(&pHeader));

		// Validate that there is on one master mob in the test file.
		checkResult(pHeader->CountMobs(kAAFMasterMob, &numMobs));
		checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);
		
		// Enumerate over Master MOBs
		criteria.searchTag = kAAFByMobKind;
		criteria.tags.mobKind = kAAFMasterMob;
		checkResult(pHeader->GetMobs(&criteria, &pMobIter));
		while (pMobIter && pMobIter->NextOne(&pMob) == AAFRESULT_SUCCESS)
		{
			aafWChar			name[500];
			aafNumSlots_t		numSlots = 0;
			aafMobID_t				mobID;
			
			// TODO: Test Master MOB specific methods here
			checkResult(pMob->QueryInterface(IID_IAAFMasterMob, (void **) &pMasterMob));
			
			checkResult(pMob->GetName(name, sizeof(name)));
			checkExpression(wcscmp(name, MobName) == 0, AAFRESULT_TEST_FAILED);
			
			checkResult(pMob->GetMobID(&mobID));
			checkExpression(0 == memcmp(&mobID, &TEST_Master_MobID, sizeof(mobID)), AAFRESULT_TEST_FAILED);
			
			checkResult(pMob->CountSlots(&numSlots));
			checkExpression(NumMobSlots == numSlots, AAFRESULT_TEST_FAILED);
			
			//AAFRESULT STDMETHODCALLTYPE
			//   ImplAAFMasterMob::GetTapeNameBufLen (0,
			//										 aafInt32*  pLen)
			unsigned long	s = 0;
			
			// Enumerate over all MOB slots for this MOB
			checkResult(pMob->GetSlots(&pSlotIter));
			while (pSlotIter && pSlotIter->NextOne(&pSlot) == AAFRESULT_SUCCESS)
			{
				aafWChar			slotName[500];
				aafSlotID_t			slotID;
				//aafUInt32			bufSize = 0;
				
				// Validate the slot name
				checkResult(pSlot->GetName(slotName, sizeof(slotName)));
				checkExpression(wcscmp(slotName, slotNames[s]) == 0, AAFRESULT_TEST_FAILED);
				
				// Validate the slot id.
				checkResult(pSlot->GetSlotID(&slotID));
				checkExpression(slotID == s+1, AAFRESULT_TEST_FAILED);

				//Now, do a search source  ...............

				//Get a search source intf.
				checkResult( pMasterMob->QueryInterface(IID_IAAFSearchSource, (void**)&pSearchSource) );

				//From the searchsource inft, get a FindSourceINfo intf.
				checkResult ( pSearchSource->SearchSource(
					slotID,
					0,
					kAAFTapeMob,
					NULL, //don't care about Media Criteria
					NULL, //don't care about operation choice
					&pSourceInfo));

				//This is an important milestone! At this point, we were successful - about getting a pSourceInfo intf.
				//  so, release the search source intf.
				if (pSearchSource)
				{
					pSearchSource->Release();
					pSearchSource=NULL;
				}

				//NOw, simply test the methods on the (final) SourceInfo intf.
				aafRational_t si_editRate = {-1};
				aafLength_t  si_length = {-1};
				aafSourceRef_t  si_sourceRef = {{{0,0,0,0,0,0,0,0,0,0,0,0},0,0,0,0,{0,0,0,{0,0,0,0,0,0,0,0}}},0,0};
				aafMobID_t  si_MobID = {{0,0,0,0,0,0,0,0,0,0,0,0},0,0,0,0,
						{0,0,0,{0,0,0,0,0,0,0,0}}};

				//Call the methods
				pSourceInfo->GetEditRate( &si_editRate);
				pSourceInfo->GetLength(&si_length);
				pSourceInfo->GetMob(&si_mob);
				pSourceInfo->GetSourceReference(&si_sourceRef);

				//Check the values returned by the methods
				//edit rate
				checkExpression(si_editRate.numerator == slotRates[s].numerator, AAFRESULT_TEST_FAILED);
				checkExpression(si_editRate.denominator == slotRates[s].denominator, AAFRESULT_TEST_FAILED);
				//Length
				checkExpression(si_length == TAPE_MOB_LENGTH_ARR[s], AAFRESULT_TEST_FAILED);
				//Mob
				checkExpression(si_mob!=NULL, AAFRESULT_TEST_FAILED); 
				si_mob->GetMobID(&si_MobID);
				checkExpression(memcmp(&si_MobID, &tapeMobID, sizeof(aafMobID_t))==0,
										AAFRESULT_TEST_FAILED);
				//Source Reference
				checkExpression(si_sourceRef.sourceSlotID == s,					AAFRESULT_TEST_FAILED);
				checkExpression(si_sourceRef.startTime == TAPE_MOB_OFFSET_ARR[s], AAFRESULT_TEST_FAILED);


				//Done with tests .. release the FindSourceInfo intf .. 
				if (pSourceInfo)
				{
					pSourceInfo->Release();
					pSourceInfo=NULL;
				}

				//Also don't forget to release the si_mob intf.
				if (si_mob)
				{
					si_mob->Release();
					si_mob=NULL;
				}


				
				pSlot->Release();
				pSlot = NULL;
				s++;
			}
			
			pSlotIter->Release();
			pSlotIter = NULL;
			pMob->Release();
			pMob = NULL;
			pMasterMob->Release();
			pMasterMob = NULL;
		}
		
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	
	
	// Cleanup and return

	if (pSearchSource)
		pSearchSource->Release();
	
	if (pSourceInfo)
		pSourceInfo->Release();
	
	if (si_mob)
		si_mob->Release();
				
	
	if (pSlot)
		pSlot->Release();
	
	if (pMasterMob)
		pMasterMob->Release();
	
	if (pMob)
		pMob->Release();
	
	if (pMobIter)
		pMobIter->Release();
	
	if (pHeader)
		pHeader->Release();
	
	if (pFile)
	{  // Close file
		if (bFileOpen)
			pFile->Close();
		pFile->Release();
	}
	
	return hr;
}
Ejemplo n.º 24
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
	// IAAFSession *				pSession = NULL;
	IAAFFile *					pFile = NULL;
	IAAFHeader *				pHeader = NULL;
	IEnumAAFMobs*				pMobIter = NULL;
	IAAFMob*					pMob = NULL;
	IAAFMob*					pReferencedMob = NULL;
	IEnumAAFMobSlots*			pSlotIter = NULL;
	IAAFMobSlot*				pSlot = NULL;
	IAAFSegment*				pSegment = NULL;
	IAAFSourceClip*				pSourceClip = NULL;
	bool bFileOpen = false;
	aafSearchCrit_t				criteria;
	aafNumSlots_t				numMobs, numSlots;
	HRESULT						hr = AAFRESULT_SUCCESS;

	try
	{ 
    // Open the file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;
 
    // We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the number of mobs in the file (should be one)
		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		checkExpression(2 == numMobs, AAFRESULT_TEST_FAILED);

		// Enumerate over all Composition Mobs
		criteria.searchTag = kAAFByMobKind;
		criteria.tags.mobKind = kAAFCompMob;
		checkResult(pHeader->GetMobs(&criteria, &pMobIter));
		while (AAFRESULT_SUCCESS == pMobIter->NextOne(&pMob))
		{
			checkResult(pMob->CountSlots(&numSlots));
			checkExpression(1 == numSlots, AAFRESULT_TEST_FAILED);

			checkResult(pMob->GetSlots(&pSlotIter));
			while (AAFRESULT_SUCCESS == pSlotIter->NextOne(&pSlot))
			{
				// The segment should be a source clip...
				checkResult(pSlot->GetSegment(&pSegment));
				pSegment->Release();
				pSegment = NULL;
				pSlot->Release();
				pSlot = NULL;
			}

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

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

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

	if (pSourceClip)
		pSourceClip->Release();

	if (pSegment)
		pSegment->Release();

	if (pSlot)
		pSlot->Release();

	if (pSlotIter)
		pSlotIter->Release();

	if (pMob)
		pMob->Release();

	if (pMobIter)
		pMobIter->Release();

	if (pHeader)
		pHeader->Release();

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

	return hr;
}
Ejemplo n.º 25
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
    // IAAFSession *				pSession = NULL;
    IAAFFile *					pFile = NULL;
    bool bFileOpen = false;
    IAAFHeader *				pHeader = NULL;
    IEnumAAFMobs *mobIter = NULL;
    IAAFContainerDef*  pContainer = NULL;
    IAAFDefObject	*  pDef = NULL;
    IAAFEssenceDescriptor		*pEdesc = NULL;
    IAAFSourceMob				*pSourceMob = NULL;
    IAAFMob			*aMob = NULL;
    IEnumAAFMobSlots	*slotIter = NULL;
    IAAFMobSlot		*slot = NULL;
    IAAFFileDescriptor *pFileDesc = NULL;
    IAAFFileDescriptor2 *pFileDesc2 = NULL;
    aafNumSlots_t	numMobs, n, s;
    HRESULT						hr = S_OK;
    aafRational_t				testSampleRate;
    aafUID_t					testContainer;
    aafLength_t					testLength;
    aafUInt32					testLinkedSlotID;
//	aafBool						testBool;


    try
    {
        // Open the file
        checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
        bFileOpen = true;

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

        // Get the number of mobs in the file (should be one)
        checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
        checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);


        checkResult(pHeader->GetMobs (NULL, &mobIter));
        for(n = 0; n < numMobs; n++)
        {
            aafWChar		name[500];
            aafNumSlots_t	numSlots;
            aafMobID_t		mobID;
            aafSlotID_t		trackID;

            checkResult(mobIter->NextOne (&aMob));
            checkResult(aMob->GetName (name, sizeof(name)));
            checkResult(aMob->GetMobID (&mobID));

            checkResult(aMob->CountSlots (&numSlots));
            if (2 != numSlots)
                return AAFRESULT_TEST_FAILED;
            if(numSlots != 0)
            {
                checkResult(aMob->GetSlots(&slotIter));

                for(s = 0; s < numSlots; s++)
                {
                    checkResult(slotIter->NextOne (&slot));
                    checkResult(slot->GetSlotID(&trackID));

                    slot->Release();
                    slot = NULL;
                }
            }
            checkResult(aMob->QueryInterface (IID_IAAFSourceMob, (void **)&pSourceMob));
            checkResult(pSourceMob->GetEssenceDescriptor (&pEdesc));
            checkResult(pEdesc->QueryInterface(IID_IAAFFileDescriptor, (void **) &pFileDesc));
            checkResult(pFileDesc->GetSampleRate (&testSampleRate));
            checkExpression(testSampleRate.numerator == checkSampleRate.numerator, AAFRESULT_TEST_FAILED);
            checkExpression(testSampleRate.denominator == checkSampleRate.denominator, AAFRESULT_TEST_FAILED);
            checkResult(pFileDesc->GetContainerFormat (&pContainer));
            checkResult(pContainer->QueryInterface(IID_IAAFDefObject, (void **) &pDef));
            checkResult(pDef->GetAUID(&testContainer));
            pContainer->Release();
            pContainer = NULL;
            pDef->Release();
            pDef = NULL;
            checkExpression(memcmp(&testContainer, &checkContainer, sizeof(testContainer)) == 0, AAFRESULT_TEST_FAILED);
            checkResult(pFileDesc->GetLength (&testLength));
            checkExpression(checkLength == testLength, AAFRESULT_TEST_FAILED);
            checkResult(pFileDesc->QueryInterface(IID_IAAFFileDescriptor2, (void **)&pFileDesc2));
            checkResult(pFileDesc2->GetLinkedSlotID (&testLinkedSlotID));
            checkExpression(checkLinkedSlotID == testLinkedSlotID, AAFRESULT_TEST_FAILED);
//			checkResult(pFileDesc->GetIsInContainer (&testBool));
//			checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);

            pEdesc->Release();
            pEdesc = NULL;
            pFileDesc->Release();
            pFileDesc = NULL;
            pFileDesc2->Release();
            pFileDesc2 = NULL;
            pSourceMob->Release();
            pSourceMob = NULL;

            aMob->Release();
            aMob = NULL;
        }
    }
    catch (HRESULT& rResult)
    {
        hr = rResult;
    }


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

    if (pFileDesc)
        pFileDesc->Release();

    if (pFileDesc2)
        pFileDesc2->Release();

    if (slotIter)
        slotIter->Release();

    if (pEdesc)
        pEdesc->Release();

    if (pSourceMob)
        pSourceMob->Release();

    if (aMob)
        aMob->Release();

    if(mobIter)
        mobIter->Release();

    if (pHeader)
        pHeader->Release();

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

    return hr;
}
Ejemplo n.º 26
0
static HRESULT ReadAAFFile(aafWChar * pFileName)
{
    // IAAFSession *				pSession = NULL;
	IAAFFile *					pFile = NULL;
	bool						bFileOpen = false;
	IAAFHeader *				pHeader = NULL;
	IAAFDictionary*				pDictionary = NULL;
	IEnumAAFMobs*				pMobIter = NULL;
	IEnumAAFMobSlots*			pEnum = NULL;
	IAAFMob*					pMob = NULL;
	IAAFMobSlot*				pMobSlot = NULL;
	IAAFSegment*				pSegment = NULL;
	IAAFSequence*				pSequence = NULL;
	IAAFTransition*				pTransition = NULL;
	IAAFComponent*				pComponent = NULL;
	IAAFFiller*					pFiller = NULL;
	IAAFOperationGroup*					pOperationGroup = NULL;
	IEnumAAFComponents*			pCompIter = NULL;
	aafLength_t					transitionLength;
	aafPosition_t				cutPoint;

	aafNumSlots_t				numMobs;
	aafUInt32					numComponents = 0;
	HRESULT						hr = S_OK;

	try
	{
		// Open the file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));
		bFileOpen = true;
 
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the number of mobs in the file (should be one)
		checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
		checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);

		checkResult(pHeader->GetMobs( NULL, &pMobIter));
		while (AAFRESULT_SUCCESS == pMobIter->NextOne(&pMob))
		{
			checkResult(pMob->GetSlots (&pEnum));

			while (AAFRESULT_SUCCESS == pEnum->NextOne (&pMobSlot))
			{
				checkResult(pMobSlot->GetSegment (&pSegment));
				// Check to see if Segment is a Sequence
				checkResult(pSegment->QueryInterface(IID_IAAFSequence, (void **) &pSequence));
				// It is, so get a Component Iterator
				checkResult(pSequence->CountComponents(&numComponents));
				// Verify that all 3 components(Filler, Transition, Filler) are present
				checkExpression(numComponents == 3,  AAFRESULT_TEST_FAILED);
				checkResult(pSequence->GetComponents(&pCompIter));
				// Now visit each and every one of the components.
				while(AAFRESULT_SUCCESS == pCompIter->NextOne(&pComponent))
				{
					// Find out what kind of segment we have
					if ((pComponent->QueryInterface(IID_IAAFTransition, (void **)&pTransition)) == AAFRESULT_SUCCESS)
					{
						// This is the transition 
						checkResult(pTransition->GetCutPoint (&cutPoint));
						checkResult(pComponent->GetLength(&transitionLength));
						checkResult(pTransition->GetOperationGroup(&pOperationGroup));
						// Check results !!
						checkExpression(cutPoint == 0, AAFRESULT_TEST_FAILED);
						checkExpression(transitionLength == 100, AAFRESULT_TEST_FAILED);
						pTransition->Release();
						pTransition = NULL;
					}
					else
					{
						// validate that the other segments are Fillers
						checkResult(pComponent->QueryInterface(IID_IAAFFiller, (void **)&pFiller));
						pFiller->Release();
						pFiller = NULL;
					}
					pComponent->Release();
					pComponent = NULL;
				}
				pSegment->Release();
				pSegment = NULL;
				pSequence->Release();
				pSequence = NULL;
				pCompIter->Release();
				pCompIter = NULL;
			}

			pMob->Release();
			pMob = NULL;
		}
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	

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

	if (pOperationGroup)
		pOperationGroup->Release();

	if (pComponent)
		pComponent->Release();

	if (pSegment)
		pSegment->Release();

	if (pMobSlot)
		pMobSlot->Release();

	if (pSequence)
		pSequence->Release();

	if (pCompIter)
		pCompIter->Release();

	if (pEnum)
		pEnum->Release();

	if (pFiller)
		pFiller->Release();

	if (pMob)
		pMob->Release();

	if (pMobIter)
		pMobIter->Release();

	if (pDictionary)
		pDictionary->Release();

	if (pHeader)
		pHeader->Release();

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

	return hr;
}
Ejemplo n.º 27
0
static HRESULT ReadAAFFile(aafWChar* pFileName)
{
	IAAFFile*		pFile = NULL;
	IAAFHeader*		pHeader = NULL;
	IEnumAAFMobs*	pMobIter = NULL;
	IAAFMob*		pMob;
	IEnumAAFMobSlots*	pSlotIter = NULL;
	IAAFMobSlot*		pSlot = NULL;
	IAAFComponent*		pComp = NULL;
	IAAFSegment*		pSegment = NULL;
	IAAFDataDef*		pDataDef = NULL;
	IAAFSequence*		pSequence = NULL;
	IAAFDictionary*		pDictionary = NULL;
	IEnumAAFDataDefs*	pEnumDataDef = NULL;
	IEnumAAFDataDefs*	pCloneEnum = NULL;
	IEnumAAFComponents*	pCompIter = NULL;
	IAAFDataDef*		pArray[2] = { NULL, NULL };
	aafNumSlots_t		numMobs;
	aafInt32			index;
	aafSearchCrit_t		criteria;
	HRESULT				hr = S_OK;
	aafBool				testBool;
	aafUInt32			resultCount;
	
	try
	{
		// Open the AAF file
		checkResult(AAFFileOpenExistingRead(pFileName, 0, &pFile));

		// Get the AAF file header.
		checkResult(pFile->GetHeader(&pHeader));
		
		// Validate that there is only one composition mob.
		checkResult(pHeader->CountMobs(kAAFCompMob, &numMobs));
		checkExpression(1 == numMobs, AAFRESULT_TEST_FAILED);
		
		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
		
		// The test can't check the types on these because the order of adding data definitions
		// is defined by the toolkit, and not the test.  !!!Change this to determine the order on
		// the first two tests, and then use to test the other functions.

		checkResult(pDictionary->GetDataDefs(&pEnumDataDef));
		/* Read and check the first element */
		checkResult(pEnumDataDef->NextOne(&pDataDef));
		checkResult(pDataDef->IsPictureKind(&testBool));
//		checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
		checkResult(pDataDef->IsSoundKind(&testBool));
//		checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
		pDataDef->Release();
		pDataDef = NULL;
		
		/**/
		/* Read and check the second element */
		checkResult(pEnumDataDef->NextOne(&pDataDef));
		checkResult(pDataDef->IsSoundKind(&testBool));
//		checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
		checkResult(pDataDef->IsPictureKind(&testBool));
//		checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
		pDataDef->Release();
		pDataDef = NULL;
		/*****/
		
		/* Reset, and check the first element again*/
		checkResult(pEnumDataDef->Reset());
		checkResult(pEnumDataDef->NextOne(&pDataDef));
		checkResult(pDataDef->IsPictureKind(&testBool));
//		checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
		checkResult(pDataDef->IsSoundKind(&testBool));
//		checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
		pDataDef->Release();
		pDataDef = NULL;
		
		/* Reset, Skip, and check the second element again*/
		checkResult(pEnumDataDef->Reset());
		checkResult(pEnumDataDef->Skip(1));
		checkResult(pEnumDataDef->NextOne(&pDataDef));
		checkResult(pDataDef->IsSoundKind(&testBool));
//		checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
		checkResult(pDataDef->IsPictureKind(&testBool));
//		checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
		pDataDef->Release();
		pDataDef = NULL;
		
		/* Reset, and read both elements */
		checkResult(pEnumDataDef->Reset());
		checkResult(pEnumDataDef->Next (2, (IAAFDataDef **)&pArray, &resultCount));
		checkExpression (resultCount == 2, AAFRESULT_TEST_FAILED);
		checkResult(pArray[0]->IsPictureKind(&testBool));
//		checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
		checkResult(pArray[0]->IsSoundKind(&testBool));
//		checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
		pArray[0]->Release();
		pArray[0] = NULL;
		
		checkResult(pArray[1]->IsSoundKind(&testBool));
//		checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
		checkResult(pArray[1]->IsPictureKind(&testBool));
//		checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
		pArray[1]->Release();
		pArray[1] = NULL;
		
//		/* Read one past to make sure that it fails */
//		checkExpression(pEnumDataDef->NextOne(&pDataDef) != AAFRESULT_SUCCESS, AAFRESULT_TEST_FAILED);
		/* Clone the enumerator, and read one element */
		checkResult(pEnumDataDef->Clone(&pCloneEnum));
		checkResult(pCloneEnum->Reset());
		checkResult(pCloneEnum->NextOne(&pDataDef));
		checkResult(pDataDef->IsPictureKind(&testBool));
//		checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
		checkResult(pDataDef->IsSoundKind(&testBool));
//		checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
		pDataDef->Release();
		pDataDef = NULL;
		pCloneEnum->Release();
		pCloneEnum = NULL;
		
		// Enumerate over Composition MOBs
		criteria.searchTag = kAAFByMobKind;
		criteria.tags.mobKind = kAAFCompMob;
		checkResult(pHeader->GetMobs(&criteria, &pMobIter));
		CAAFBuiltinDefs defs (pDictionary);
		while (pMobIter && pMobIter->NextOne(&pMob) == AAFRESULT_SUCCESS)
		{
			aafNumSlots_t		numSlots = 0;
			
			checkResult(pMob->CountSlots(&numSlots));
			checkExpression(1 == numSlots, AAFRESULT_TEST_FAILED);
			
			// Enumerate over all MOB slots for this MOB
			checkResult(pMob->GetSlots(&pSlotIter));
			while (pSlotIter && pSlotIter->NextOne(&pSlot) == AAFRESULT_SUCCESS)
			{
				aafUInt32			numCpnts;
				
				checkResult(pSlot->GetSegment(&pSegment));
				checkResult(pSegment->QueryInterface(IID_IAAFSequence, (void **) &pSequence));
				
				checkResult(pSequence->CountComponents(&numCpnts));
				checkExpression(numCpnts == kNumComponents, AAFRESULT_TEST_FAILED);
				
				checkResult(pSequence->GetComponents(&pCompIter));
				numCpnts = 0;
				index = 0;
				while (pCompIter && pCompIter->NextOne(&pComp) == AAFRESULT_SUCCESS)
				{
					aafBool		testBool;
					
					numCpnts++;
					
					checkResult(pComp->GetDataDef(&pDataDef));
					checkResult(pDataDef->IsSoundKind(&testBool));
					checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
					checkResult(pDataDef->IsMatteKind(&testBool));
					checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
					
					if(index == 0)	// First segment is Picture with Matte, converts to picture
					{
						checkResult(pDataDef->IsDataDefOf(defs.ddkAAFPictureWithMatte(),
														  &testBool));
						checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
						checkResult(pDataDef->IsPictureKind(&testBool));
						checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
						checkResult(pDataDef->IsPictureWithMatteKind(&testBool));
						checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
						checkResult(pDataDef->DoesDataDefConvertTo (defs.ddkAAFPicture(), &testBool));
						checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
					}
					else		// First segment is Picture, converts from picture with Matte
					{
						checkResult(pDataDef->IsDataDefOf(defs.ddkAAFPicture(), &testBool));
						checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
						checkResult(pDataDef->IsPictureKind(&testBool));
						checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
						checkResult(pDataDef->IsPictureWithMatteKind(&testBool));
						checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
						checkResult(pDataDef->DoesDataDefConvertFrom (defs.ddkAAFPictureWithMatte(),
																	  &testBool));
						checkExpression(testBool == kAAFTrue, AAFRESULT_TEST_FAILED);
					}
					checkResult(pDataDef->DoesDataDefConvertTo (defs.ddkAAFSound(),
																&testBool));
					checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
					checkResult(pDataDef->DoesDataDefConvertFrom (defs.ddkAAFSound(), &testBool));
					checkExpression(testBool == kAAFFalse, AAFRESULT_TEST_FAILED);
					
					pComp->Release();
					pComp = NULL;
					pDataDef->Release();
					pDataDef = NULL;
					index++;
				}
				
				pCompIter->Release();
				pCompIter = NULL;
				
				pSequence->Release();
				pSequence = NULL;
				
				pSegment->Release();
				pSegment = NULL;
				
				pSlot->Release();
				pSlot = NULL;
			}
			
			pSlotIter->Release();
			pSlotIter = NULL;
			
			pMob->Release();
			pMob = NULL;
		}
		
		
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	
	// Cleanup object references
	if (pComp)
		pComp->Release();
	

	if (pEnumDataDef)
		pEnumDataDef->Release();
	if (pCloneEnum)
		pCloneEnum->Release();
	if (pCompIter)
		pCompIter->Release();
	if (pArray[0])
		pArray[0]->Release();
	if (pArray[1])
		pArray[1]->Release();
	
	if (pDataDef)
		pDataDef->Release();
	
	if (pSequence)
		pSequence->Release();
	
	if (pSegment)
		pSegment->Release();
	
	if (pSlot)
		pSlot->Release();
	
	if (pDictionary)
		pDictionary->Release();
	
	if (pSlotIter)
		pSlotIter->Release();
	
	if (pMob)
		pMob->Release();
	
	if (pMobIter)
		pMobIter->Release();
	
	if (pHeader) pHeader->Release();
	
	if (pFile)
	{
		pFile->Close();
		pFile->Release();
	}
	
	
	return 	hr;
}