livetrax/libs/appleutility/CoreAudio/AudioCodecs/ACPublic/ACBaseCodec.cpp

/*
     File: ACBaseCodec.cpp
 Abstract: ACBaseCodec.h
  Version: 1.1

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*/
//=============================================================================
//	Includes
//=============================================================================
#include <algorithm>
#include "ACBaseCodec.h"

#include "CABundleLocker.h"

#if TARGET_OS_WIN32
	#include "CAWin32StringResources.h"
#endif

//=============================================================================
//	ACBaseCodec
//=============================================================================

ACBaseCodec::ACBaseCodec( AudioComponentInstance inInstance )
:
	ACCodec(inInstance),
	mIsInitialized(false),
	mInputFormatList(),
	mInputFormat(),
	mOutputFormatList(),
	mOutputFormat()
{
	mCodecSubType = 0;
	if (inInstance) GetSubType();
}

ACBaseCodec::~ACBaseCodec()
{
}

void	ACBaseCodec::GetPropertyInfo(AudioCodecPropertyID inPropertyID, UInt32& outPropertyDataSize, Boolean& outWritable)
{
	switch(inPropertyID)
	{
#if BUILD_ADEC_LIB
		case kAudioCodecPropertyNameCFString:
		case kAudioCodecPropertyFormatCFString:
		case kAudioCodecPropertyManufacturerCFString:
			outPropertyDataSize = 0;
			outWritable = false;
			break;
#else
		case kAudioCodecPropertyNameCFString:
			outPropertyDataSize = SizeOf32(CFStringRef);
			outWritable = false;
			break;

		case kAudioCodecPropertyManufacturerCFString:
			outPropertyDataSize = SizeOf32(CFStringRef);
			outWritable = false;
			break;

		case kAudioCodecPropertyFormatCFString:
			outPropertyDataSize = SizeOf32(CFStringRef);
			outWritable = false;
			break;
#endif
		case kAudioCodecPropertyRequiresPacketDescription:
			outPropertyDataSize = SizeOf32(UInt32);
			outWritable = false;
			break;

		case kAudioCodecPropertyMinimumNumberInputPackets :
			outPropertyDataSize = SizeOf32(UInt32);
			outWritable = false;
			break;

		case kAudioCodecPropertyMinimumNumberOutputPackets :
			outPropertyDataSize = SizeOf32(UInt32);
			outWritable = false;
			break;

		case kAudioCodecPropertyCurrentInputFormat:
			outPropertyDataSize = SizeOf32(AudioStreamBasicDescription);
			outWritable = true;
			break;

		case kAudioCodecPropertySupportedInputFormats:
		case kAudioCodecPropertyInputFormatsForOutputFormat:
			outPropertyDataSize = GetNumberSupportedInputFormats() * SizeOf32(AudioStreamBasicDescription);
			outWritable = false;
			break;

		case kAudioCodecPropertyCurrentOutputFormat:
			outPropertyDataSize = SizeOf32(AudioStreamBasicDescription);
			outWritable = true;
			break;

		case kAudioCodecPropertySupportedOutputFormats:
		case kAudioCodecPropertyOutputFormatsForInputFormat:
			outPropertyDataSize = GetNumberSupportedOutputFormats() * SizeOf32(AudioStreamBasicDescription);
			outWritable = false;
			break;

		case kAudioCodecPropertyMagicCookie:
			outPropertyDataSize = GetMagicCookieByteSize();
			outWritable = true;
			break;

		case kAudioCodecPropertyInputBufferSize:
			outPropertyDataSize = SizeOf32(UInt32);
			outWritable = false;
			break;

		case kAudioCodecPropertyUsedInputBufferSize:
			outPropertyDataSize = SizeOf32(UInt32);
			outWritable = false;
			break;

		case kAudioCodecPropertyIsInitialized:
			outPropertyDataSize = SizeOf32(UInt32);
			outWritable = false;
			break;

		case kAudioCodecPropertyAvailableNumberChannels:
			outPropertyDataSize = SizeOf32(UInt32) * 2; // Mono, stereo
			outWritable = false;
			break;

 		case kAudioCodecPropertyPrimeMethod:
			outPropertyDataSize = SizeOf32(UInt32);
			outWritable = false;
			break;

 		case kAudioCodecPropertyPrimeInfo:
			outPropertyDataSize = SizeOf32(AudioCodecPrimeInfo);
			outWritable = false;
			break;

 		case kAudioCodecPropertyDoesSampleRateConversion:
			outPropertyDataSize = SizeOf32(UInt32);
			outWritable = false;
			break;

		default:
			CODEC_THROW(kAudioCodecUnknownPropertyError);
			break;

	};
}

void	ACBaseCodec::GetProperty(AudioCodecPropertyID inPropertyID, UInt32& ioPropertyDataSize, void* outPropertyData)
{
	UInt32 thePacketsToGet;

	switch(inPropertyID)
	{
#if !BUILD_ADEC_LIB
		case kAudioCodecPropertyNameCFString:
		{
			if (ioPropertyDataSize != SizeOf32(CFStringRef)) CODEC_THROW(kAudioCodecBadPropertySizeError);

			CABundleLocker lock;
			CFStringRef name = CFCopyLocalizedStringFromTableInBundle(CFSTR("unknown codec"), CFSTR("CodecNames"), GetCodecBundle(), CFSTR(""));
			*(CFStringRef*)outPropertyData = name;
			break;
		}

		case kAudioCodecPropertyManufacturerCFString:
		{
			if (ioPropertyDataSize != SizeOf32(CFStringRef)) CODEC_THROW(kAudioCodecBadPropertySizeError);

			CABundleLocker lock;
			CFStringRef name = CFCopyLocalizedStringFromTableInBundle(CFSTR("Apple, Inc."), CFSTR("CodecNames"), GetCodecBundle(), CFSTR(""));
			*(CFStringRef*)outPropertyData = name;
			break;
		}
#else
			// If called on the device these should return nothing but 0
		case kAudioCodecPropertyNameCFString:
		case kAudioCodecPropertyFormatCFString:
		case kAudioCodecPropertyManufacturerCFString:
			ioPropertyDataSize = 0;
			outPropertyData = 0;
			break;
#endif
        case kAudioCodecPropertyRequiresPacketDescription:
  			if(ioPropertyDataSize == SizeOf32(UInt32))
			{
                *reinterpret_cast<UInt32*>(outPropertyData) = 0;
            }
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
            break;

		case kAudioCodecPropertyMinimumNumberInputPackets :
			if(ioPropertyDataSize != SizeOf32(UInt32)) CODEC_THROW(kAudioCodecBadPropertySizeError);
			*(UInt32*)outPropertyData = 1;
			break;

		case kAudioCodecPropertyMinimumNumberOutputPackets :
			if(ioPropertyDataSize != SizeOf32(UInt32)) CODEC_THROW(kAudioCodecBadPropertySizeError);
			*(UInt32*)outPropertyData = 1;
			break;

		case kAudioCodecPropertyCurrentInputFormat:
			if(ioPropertyDataSize == SizeOf32(AudioStreamBasicDescription))
			{
				GetCurrentInputFormat(*reinterpret_cast<AudioStreamBasicDescription*>(outPropertyData));
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

		case kAudioCodecPropertySupportedInputFormats:
		case kAudioCodecPropertyInputFormatsForOutputFormat:
			thePacketsToGet = ioPropertyDataSize / SizeOf32(AudioStreamBasicDescription);
			GetSupportedInputFormats(reinterpret_cast<AudioStreamBasicDescription*>(outPropertyData), thePacketsToGet);
			ioPropertyDataSize = thePacketsToGet * SizeOf32(AudioStreamBasicDescription);
			break;

		case kAudioCodecPropertyCurrentOutputFormat:
			if(ioPropertyDataSize == SizeOf32(AudioStreamBasicDescription))
			{
				GetCurrentOutputFormat(*reinterpret_cast<AudioStreamBasicDescription*>(outPropertyData));
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

		case kAudioCodecPropertySupportedOutputFormats:
		case kAudioCodecPropertyOutputFormatsForInputFormat:
			thePacketsToGet = ioPropertyDataSize / SizeOf32(AudioStreamBasicDescription);
			GetSupportedOutputFormats(reinterpret_cast<AudioStreamBasicDescription*>(outPropertyData), thePacketsToGet);
			ioPropertyDataSize = thePacketsToGet * SizeOf32(AudioStreamBasicDescription);
			break;

		case kAudioCodecPropertyMagicCookie:
			if(ioPropertyDataSize >= GetMagicCookieByteSize())
			{
				GetMagicCookie(outPropertyData, ioPropertyDataSize);
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

		case kAudioCodecPropertyInputBufferSize:
			if(ioPropertyDataSize == SizeOf32(UInt32))
			{
				*reinterpret_cast<UInt32*>(outPropertyData) = GetInputBufferByteSize();
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

		case kAudioCodecPropertyUsedInputBufferSize:
			if(ioPropertyDataSize == SizeOf32(UInt32))
			{
				*reinterpret_cast<UInt32*>(outPropertyData) = GetUsedInputBufferByteSize();
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

		case kAudioCodecPropertyIsInitialized:
			if(ioPropertyDataSize == SizeOf32(UInt32))
			{
				*reinterpret_cast<UInt32*>(outPropertyData) = IsInitialized() ? 1 : 0;
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

        case kAudioCodecPropertyAvailableNumberChannels:
  			if(ioPropertyDataSize == SizeOf32(UInt32) * 2)
			{
				(reinterpret_cast<UInt32*>(outPropertyData))[0] = 1;
				(reinterpret_cast<UInt32*>(outPropertyData))[1] = 2;
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

        case kAudioCodecPropertyPrimeMethod:
  			if(ioPropertyDataSize == SizeOf32(UInt32))
			{
				*reinterpret_cast<UInt32*>(outPropertyData) = (UInt32)kAudioCodecPrimeMethod_None;
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

		case kAudioCodecPropertyPrimeInfo:
  			if(ioPropertyDataSize == SizeOf32(AudioCodecPrimeInfo) )
			{
				(reinterpret_cast<AudioCodecPrimeInfo*>(outPropertyData))->leadingFrames = 0;
				(reinterpret_cast<AudioCodecPrimeInfo*>(outPropertyData))->trailingFrames = 0;
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

        case kAudioCodecPropertyDoesSampleRateConversion:
  			if(ioPropertyDataSize == SizeOf32(UInt32))
			{
				*reinterpret_cast<UInt32*>(outPropertyData) = 0;
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

		default:
			CODEC_THROW(kAudioCodecUnknownPropertyError);
			break;

	};
}

void	ACBaseCodec::SetProperty(AudioCodecPropertyID inPropertyID, UInt32 inPropertyDataSize, const void* inPropertyData)
{
	// No property can be set when the codec is initialized
	if(mIsInitialized)
	{
		CODEC_THROW(kAudioCodecIllegalOperationError);
	}

	switch(inPropertyID)
	{
		case kAudioCodecPropertyCurrentInputFormat:
			if(inPropertyDataSize == SizeOf32(AudioStreamBasicDescription))
			{
				SetCurrentInputFormat(*reinterpret_cast<const AudioStreamBasicDescription*>(inPropertyData));
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

		case kAudioCodecPropertyCurrentOutputFormat:
			if(inPropertyDataSize == SizeOf32(AudioStreamBasicDescription))
			{
				SetCurrentOutputFormat(*reinterpret_cast<const AudioStreamBasicDescription*>(inPropertyData));
			}
			else
			{
				CODEC_THROW(kAudioCodecBadPropertySizeError);
			}
			break;

		case kAudioCodecPropertyMagicCookie:
			SetMagicCookie(inPropertyData, inPropertyDataSize);
			break;

		case kAudioCodecPropertyMinimumNumberOutputPackets :
		case kAudioCodecPropertyMinimumNumberInputPackets :
		case kAudioCodecPropertyInputBufferSize:
		case kAudioCodecPropertyNameCFString:
		case kAudioCodecPropertyManufacturerCFString:
		case kAudioCodecPropertyFormatCFString:
		case kAudioCodecPropertySupportedInputFormats:
		case kAudioCodecPropertySupportedOutputFormats:
		case kAudioCodecPropertyUsedInputBufferSize:
		case kAudioCodecPropertyIsInitialized:
		case kAudioCodecPropertyAvailableNumberChannels:
		case kAudioCodecPropertyPrimeMethod:
		case kAudioCodecPropertyPrimeInfo:
		case kAudioCodecPropertyOutputFormatsForInputFormat:
		case kAudioCodecPropertyInputFormatsForOutputFormat:
		case kAudioCodecPropertyDoesSampleRateConversion:
		case kAudioCodecPropertyRequiresPacketDescription:
			CODEC_THROW(kAudioCodecIllegalOperationError);
			break;

		default:
			CODEC_THROW(kAudioCodecUnknownPropertyError);
			break;
	};
}

void	ACBaseCodec::Initialize(const AudioStreamBasicDescription* /* inInputFormat */, const AudioStreamBasicDescription* /* inOutputFormat */, const void* /* inMagicCookie */, UInt32 /* inMagicCookieByteSize */)
{
	mIsInitialized = true;
}

void	ACBaseCodec::Uninitialize()
{
	mIsInitialized = false;
}

void	ACBaseCodec::Reset()
{
}

UInt32	ACBaseCodec::GetNumberSupportedInputFormats() const
{
	return (UInt32)mInputFormatList.size();
}

void	ACBaseCodec::GetSupportedInputFormats(AudioStreamBasicDescription* outInputFormats, UInt32& ioNumberInputFormats) const
{
	UInt32 theNumberFormats = (UInt32)mInputFormatList.size();
	ioNumberInputFormats = (theNumberFormats < ioNumberInputFormats) ? theNumberFormats : ioNumberInputFormats;

	FormatList::const_iterator theIterator = mInputFormatList.begin();
	theNumberFormats = ioNumberInputFormats;
	while((theNumberFormats > 0) && (theIterator != mInputFormatList.end()))
	{
		*outInputFormats = *theIterator;

		++outInputFormats;
		--theNumberFormats;
		std::advance(theIterator, 1);
	}
}

void	ACBaseCodec::GetCurrentInputFormat(AudioStreamBasicDescription& outInputFormat)
{
	outInputFormat = mInputFormat;
}

void	ACBaseCodec::SetCurrentInputFormat(const AudioStreamBasicDescription& inInputFormat)
{
	if(!mIsInitialized)
	{
		mInputFormat = inInputFormat;
	}
	else
	{
		CODEC_THROW(kAudioCodecStateError);
	}
}

UInt32	ACBaseCodec::GetNumberSupportedOutputFormats() const
{
	return (UInt32)mOutputFormatList.size();
}

void	ACBaseCodec::GetSupportedOutputFormats(AudioStreamBasicDescription* outOutputFormats, UInt32& ioNumberOutputFormats) const
{
	UInt32 theNumberFormats = (UInt32)mOutputFormatList.size();
	ioNumberOutputFormats = (theNumberFormats < ioNumberOutputFormats) ? theNumberFormats : ioNumberOutputFormats;

	FormatList::const_iterator theIterator = mOutputFormatList.begin();
	theNumberFormats = ioNumberOutputFormats;
	while((theNumberFormats > 0) && (theIterator != mOutputFormatList.end()))
	{
		*outOutputFormats = *theIterator;

		++outOutputFormats;
		--theNumberFormats;
		std::advance(theIterator, 1);
	}
}

void	ACBaseCodec::GetCurrentOutputFormat(AudioStreamBasicDescription& outOutputFormat)
{
	outOutputFormat = mOutputFormat;
}

void	ACBaseCodec::SetCurrentOutputFormat(const AudioStreamBasicDescription& inOutputFormat)
{
	if(!mIsInitialized)
	{
		mOutputFormat = inOutputFormat;
	}
	else
	{
		CODEC_THROW(kAudioCodecStateError);
	}
}

UInt32	ACBaseCodec::GetMagicCookieByteSize() const
{
	return 0;
}

void	ACBaseCodec::GetMagicCookie(void* /* outMagicCookieData */, UInt32& ioMagicCookieDataByteSize) const
{
	ioMagicCookieDataByteSize = 0;
}

void	ACBaseCodec::SetMagicCookie(const void* /* outMagicCookieData */, UInt32 /* inMagicCookieDataByteSize */)
{
	if(mIsInitialized)
	{
		CODEC_THROW(kAudioCodecStateError);
	}
}

void	ACBaseCodec::AddInputFormat(const AudioStreamBasicDescription& inInputFormat)
{
	FormatList::iterator theIterator = std::find(mInputFormatList.begin(), mInputFormatList.end(), inInputFormat);
	if(theIterator == mInputFormatList.end())
	{
		theIterator = std::lower_bound(mInputFormatList.begin(), mInputFormatList.end(), inInputFormat);
		mInputFormatList.insert(theIterator, inInputFormat);
	}
}

void	ACBaseCodec::AddOutputFormat(const AudioStreamBasicDescription& inOutputFormat)
{
	FormatList::iterator theIterator = std::find(mOutputFormatList.begin(), mOutputFormatList.end(), inOutputFormat);
	if(theIterator == mOutputFormatList.end())
	{
		theIterator = std::lower_bound(mOutputFormatList.begin(), mOutputFormatList.end(), inOutputFormat);
		mOutputFormatList.insert(theIterator, inOutputFormat);
	}
}

OSType ACBaseCodec::GetSubType()
{
	if (!mCodecSubType)
	{
		AudioComponentDescription desc = GetComponentDescription();
		mCodecSubType = desc.componentSubType;
	}
	return mCodecSubType;
}