Esempio n. 1
0
filepos_t EbmlVoid::RenderData(IOCallback & output, bool bForceRender, bool bWithDefault)
{
	// write dummy data by 4KB chunks
	static binary DummyBuf[4*1024];

	uint64 SizeToWrite = GetSize();
	while (SizeToWrite > 4*1024)
	{
		output.writeFully(DummyBuf, 4*1024);
		SizeToWrite -= 4*1024;
	}
	output.writeFully(DummyBuf, SizeToWrite);
	return GetSize();
}
Esempio n. 2
0
uint32 EbmlVoid::RenderData(IOCallback & output, bool bForceRender, bool bKeepIntact)
{
	// write dummy data by 4KB chunks
	static binary DummyBuf[4*1024];

	uint64 SizeToWrite = Size;
	while (SizeToWrite > 4*1024)
	{
		output.writeFully(DummyBuf, 4*1024);
		SizeToWrite -= 4*1024;
	}
	output.writeFully(DummyBuf, SizeToWrite);
	return Size;
}
Esempio n. 3
0
/*!
	\todo handle exception on errors
	\todo write all the Mandatory elements in the Context, otherwise assert
*/
filepos_t EbmlMaster::RenderData(IOCallback & output, bool bForceRender, bool bWithDefault)
{
	filepos_t Result = 0;
	size_t Index;

	if (!bForceRender) {
		assert(CheckMandatory());
	}

	if (!bChecksumUsed) { // old school
		for (Index = 0; Index < ElementList.size(); Index++) {
			if (!bWithDefault && (ElementList[Index])->IsDefaultValue())
				continue;
			Result += (ElementList[Index])->Render(output, bWithDefault, false ,bForceRender);
		}
	} else { // new school
		MemIOCallback TmpBuf(GetSize() - 6);
		for (Index = 0; Index < ElementList.size(); Index++) {
			if (!bWithDefault && (ElementList[Index])->IsDefaultValue())
				continue;
			(ElementList[Index])->Render(TmpBuf, bWithDefault, false ,bForceRender);
		}
		Checksum.FillCRC32(TmpBuf.GetDataBuffer(), TmpBuf.GetDataBufferSize());
		Result += Checksum.Render(output, true, false ,bForceRender);
		output.writeFully(TmpBuf.GetDataBuffer(), TmpBuf.GetDataBufferSize());
		Result += TmpBuf.GetDataBufferSize();
	}

	return Result;
}
Esempio n. 4
0
/*!
  \todo handle exception on errors
  \todo handle 10 bits precision
*/
filepos_t EbmlFloat::RenderData(IOCallback & output, bool /* bForceRender */, bool /* bWithDefault */)
{
  assert(GetSize() == 4 || GetSize() == 8);

  if (GetSize() == 4) {
    float val = Value;
    int Tmp;
    memcpy(&Tmp, &val, 4);
    big_int32 TmpToWrite(Tmp);
    output.writeFully(&TmpToWrite.endian(), GetSize());
  } else if (GetSize() == 8) {
    double val = Value;
    int64 Tmp;
    memcpy(&Tmp, &val, 8);
    big_int64 TmpToWrite(Tmp);
    output.writeFully(&TmpToWrite.endian(), GetSize());
  }

  return GetSize();
}
Esempio n. 5
0
filepos_t EbmlDate::RenderData(IOCallback & output, bool /* bForceRender */, bool  /* bWithDefault */)
{
  if (GetSize() != 0) {
    assert(GetSize() == 8);
    big_int64 b64(myDate);

    output.writeFully(&b64.endian(),GetSize());
  }

  return GetSize();
}
Esempio n. 6
0
/*!
  \todo handle exception on errors
*/
filepos_t EbmlString::RenderData(IOCallback & output, bool /* bForceRender */, bool /* bWithDefault */)
{
  filepos_t Result;
  output.writeFully(Value.c_str(), Value.length());
  Result = Value.length();

  if (Result < GetDefaultSize()) {
    // pad the rest with 0
    binary *Pad = new (std::nothrow) binary[GetDefaultSize() - Result];
    if (Pad == NULL) {
      return Result;
    }
    memset(Pad, 0x00, GetDefaultSize() - Result);
    output.writeFully(Pad, GetDefaultSize() - Result);
    Result = GetDefaultSize();
    delete [] Pad;
  }

  return Result;
}
Esempio n. 7
0
/*!
	\todo handle exception on errors
	\todo handle 10 bits precision
*/
uint32 EbmlFloat::RenderData(IOCallback & output, bool bForceRender, bool bKeepIntact)
{
	assert(Size == 4 || Size == 8);

	if (Size == 4) {
		float val = Value;
		int Tmp;
		memcpy(&Tmp, &val, 4);
		big_int32 TmpToWrite(Tmp);
		output.writeFully(&TmpToWrite.endian(), Size);
	} else if (Size == 8) {
		double val = Value;
		int64 Tmp;
		memcpy(&Tmp, &val, 8);
		big_int64 TmpToWrite(Tmp);
		output.writeFully(&TmpToWrite.endian(), Size);
	} 

	return Size;
}
Esempio n. 8
0
/*!
	\todo handle exception on errors
*/
uint32 EbmlString::RenderData(IOCallback & output, bool bForceRender, bool bKeepIntact)
{
	uint32 Result;
	output.writeFully(Value.c_str(), Value.length());
	Result = Value.length();
	
	if (Result < DefaultSize) {
		// pad the rest with 0
		binary *Pad = new binary[DefaultSize - Result];
		if (Pad == NULL)
		{
			return Result;
		}
		memset(Pad, 0x00, DefaultSize - Result);
		output.writeFully(Pad, DefaultSize - Result);
		Result = DefaultSize;
		delete [] Pad;
	}
	
	return Result;
}
Esempio n. 9
0
filepos_t EbmlCrc32::RenderData(IOCallback & output, bool /* bForceRender */, bool /* bWithDefault */)
{
	filepos_t Result = 4;

	if (Result != 0) {
	    output.writeFully(&m_crc_final, Result);
	}

	if (Result < GetDefaultSize()) {
		// pad the rest with 0
		binary *Pad = new binary[GetDefaultSize() - Result];
		if (Pad != NULL) {
			memset(Pad, 0x00, GetDefaultSize() - Result);
			output.writeFully(Pad, GetDefaultSize() - Result);

			Result = GetDefaultSize();
			delete [] Pad;
		}
	}

	return Result;
}
Esempio n. 10
0
/*!
	\todo handle exception on errors
*/
uint32 EbmlUInteger::RenderData(IOCallback & output, bool bForceRender, bool bKeepIntact)
{
	binary FinalData[8]; // we don't handle more than 64 bits integers
	
	if (SizeLength > 8)
		return 0; // integer bigger coded on more than 64 bits are not supported
	
	uint64 TempValue = Value;
	for (unsigned int i=0; i<Size;i++) {
		FinalData[Size-i-1] = TempValue & 0xFF;
		TempValue >>= 8;
	}
	
	output.writeFully(FinalData,Size);

	return Size;
}
/*!
	\todo handle exception on errors
*/
filepos_t EbmlUInteger::RenderData(IOCallback & output, bool /* bForceRender */, bool /* bWithDefault */)
{
	binary FinalData[8]; // we don't handle more than 64 bits integers
	
	if (GetSizeLength() > 8)
		return 0; // integer bigger coded on more than 64 bits are not supported
	
	uint64 TempValue = Value;
	for (unsigned int i=0; i<GetSize();i++) {
		FinalData[GetSize()-i-1] = TempValue & 0xFF;
		TempValue >>= 8;
	}
	
	output.writeFully(FinalData,GetSize());

	return GetSize();
}
Esempio n. 12
0
/*!
	\todo more optimisation is possible (render the Block head and don't copy the buffer in memory, care should be taken with the allocation of Data)
	\todo the actual timecode to write should be retrieved from the Cluster from here
*/
filepos_t KaxInternalBlock::RenderData(IOCallback & output, bool bForceRender, bool bSaveDefault)
{
	if (myBuffers.size() == 0) {
		return 0;
	} else {
		assert(TrackNumber < 0x4000);
		binary BlockHead[5], *cursor = BlockHead;
		unsigned int i;

		if (myBuffers.size() == 1) {
			SetSize_(4);
			mLacing = LACING_NONE;
		} else {
			if (mLacing == LACING_NONE)
				mLacing = LACING_EBML; // supposedly the best of all
			SetSize_(4 + 1); // 1 for the lacing head (number of laced elements)
		}
		if (TrackNumber > 0x80)
			SetSize_(GetSize() + 1);

		// write Block Head
		if (TrackNumber < 0x80) {
			*cursor++ = TrackNumber | 0x80; // set the first bit to 1 
		} else {
			*cursor++ = (TrackNumber >> 8) | 0x40; // set the second bit to 1
			*cursor++ = TrackNumber & 0xFF;
		}

		assert(ParentCluster != NULL);
		int16 ActualTimecode = ParentCluster->GetBlockLocalTimecode(Timecode);
		big_int16 b16(ActualTimecode);
		b16.Fill(cursor);
		cursor += 2;

		*cursor = 0; // flags

		if (mLacing == LACING_AUTO) {
			mLacing = GetBestLacingType();
		}

		// invisible flag
		if (mInvisible)
			*cursor = 0x08;

		if (bIsSimple) {
			if (bIsKeyframe)
				*cursor |= 0x80;
			if (bIsDiscardable)
				*cursor |= 0x01;
		}
		
		// lacing flag
		switch (mLacing)
		{
		case LACING_XIPH:
			*cursor++ |= 0x02;
			break;
		case LACING_EBML:
			*cursor++ |= 0x06;
			break;
		case LACING_FIXED:
			*cursor++ |= 0x04;
			break;
		case LACING_NONE:
			break;
	    default:
			assert(0);
		}

		output.writeFully(BlockHead, 4 + ((TrackNumber > 0x80) ? 1 : 0));

		binary tmpValue;
		switch (mLacing)
		{
		case LACING_XIPH:
			// number of laces
			tmpValue = myBuffers.size()-1;
			output.writeFully(&tmpValue, 1);

			// set the size of each member in the lace
			for (i=0; i<myBuffers.size()-1; i++) {
				tmpValue = 0xFF;
				uint16 tmpSize = myBuffers[i]->Size();
				while (tmpSize >= 0xFF) {
					output.writeFully(&tmpValue, 1);
					SetSize_(GetSize() + 1);
					tmpSize -= 0xFF;
				}
				tmpValue = binary(tmpSize);
				output.writeFully(&tmpValue, 1);
				SetSize_(GetSize() + 1);
			}
			break;
		case LACING_EBML:
			// number of laces
			tmpValue = myBuffers.size()-1;
			output.writeFully(&tmpValue, 1);

			{
				int64 _Size;
				int _CodedSize;
				binary _FinalHead[8]; // 64 bits max coded size

				_Size = myBuffers[0]->Size();

				_CodedSize = CodedSizeLength(_Size, 0, IsFiniteSize());

				// first size in the lace is not a signed
				CodedValueLength(_Size, _CodedSize, _FinalHead);
				output.writeFully(_FinalHead, _CodedSize);
				SetSize_(GetSize() + _CodedSize);

				// set the size of each member in the lace
				for (i=1; i<myBuffers.size()-1; i++) {
					_Size = int64(myBuffers[i]->Size()) - int64(myBuffers[i-1]->Size());
					_CodedSize = CodedSizeLengthSigned(_Size, 0);
					CodedValueLengthSigned(_Size, _CodedSize, _FinalHead);
					output.writeFully(_FinalHead, _CodedSize);
					SetSize_(GetSize() + _CodedSize);
				}
			}
			break;
		case LACING_FIXED:
			// number of laces
			tmpValue = myBuffers.size()-1;
			output.writeFully(&tmpValue, 1);
			break;
		case LACING_NONE:
			break;
	    default:
			assert(0);
		}

		// put the data of each frame
		for (i=0; i<myBuffers.size(); i++) {
			output.writeFully(myBuffers[i]->Buffer(), myBuffers[i]->Size());
			SetSize_(GetSize() + myBuffers[i]->Size());
		}
	}

	return GetSize();
}
Esempio n. 13
0
filepos_t EbmlBinary::RenderData(IOCallback & output, bool /* bForceRender */, bool /* bWithDefault */)
{
  output.writeFully(Data,GetSize());

  return GetSize();
}