// Copyright (c) 2004-2009 Nokia Corporation and/or its subsidiary(-ies).

// All rights reserved.

// This component and the accompanying materials are made available

// under the terms of "Eclipse Public License v1.0"

// which accompanies this distribution, and is available

// at the URL "http://www.eclipse.org/legal/epl-v10.html".

//

// Initial Contributors:

// Nokia Corporation - initial contribution.

//

// Contributors:

//

// Description:

//

#include <e32base.h>

#include <f32file.h>

#include <s32file.h>

#include <mmf/plugin/mmfsbccodecimplementationuids.hrh>

#include "TSU_MMF_SbcCodec.h"

#include "TSU_MMF_SbcCodecSuite.h"

/**

 * Size of PCM16 wave file header is 44

 */

const TInt  KWavFileHeaderSize = 44;

/**

 * The default buffer size

 */

const TUint KDefaultBufferSize = 4096;

/**

 * UID of sbc encoder ECom plugin

 */

const TUid  KSbcCodecPluginUid = { KMmfUidCodecPCM16ToSBC };

/**

 * UID of sbc encoder configuration

 */

const TUid	KSbcCodecConfigUid = { KMmfUidSBCConfigure };

#ifdef __WINS__

_LIT(KSourceFileDir, "c:\\mm\\mmf\\testfiles\\sbc\\");

_LIT(KOutputFileDir, "c:\\mm\\mmf\\testfiles\\sbc\\");

_LIT(KReferenceFileDir, "c:\\mm\\mmf\\ref\\sbc\\");

#else

/**

 * armv5 directories

 * All source and comparison files need to be copied manually onto the flash card.

 * This code assumes the flash card is represented by drive E: on the target board.

 */

/**

 * we don't copy all the wave files onto C: as they are too big, leave them on E:

 */

_LIT(KSourceFileDir, "e:\\");

/**

 * This folder keeps all the output files

 */

_LIT(KOutputFileDir, "c:\\sbc\\");

/**

 * This folder keeps all the reference files for comparison

 */

_LIT(KReferenceFileDir, "c:\\sbc\\ref\\");

#endif

// Test source files names

_LIT(KTestWavFile01, "sbc_test_01.wav");

_LIT(KTestWavFile02, "sbc_test_02.wav");

_LIT(KTestWavFile03, "sbc_test_03.wav"); 

_LIT(KTestWavFile04, "sbc_test_04.wav");

_LIT(KTestWavFile05, "sbc_test_05.wav"); 

_LIT(KTestWavFile06, "sbc_test_06.wav");

_LIT(KTestWavFile07, "sbc_test_07.wav"); 

_LIT(KTestWavFile08, "sbc_test_08.wav");

_LIT(KTestWavFile09, "sbc_test_09.wav"); 

_LIT(KTestWavFile10, "sbc_test_10.wav");

_LIT(KTestWavFile11, "sbc_test_11.wav"); 

_LIT(KTestWavFile12, "sbc_test_12.wav");

_LIT(KTestWavFile13, "sbc_test_13.wav"); 

_LIT(KTestWavFile14, "sbc_test_14.wav");

_LIT(KTestWavFile15, "sbc_test_15.wav"); 

_LIT(KTestWavFile16, "sbc_test_16.wav");

_LIT(KTestWavFile17, "sbc_test_17.wav"); 

_LIT(KTestWavFile18, "sbc_test_18.wav");

_LIT(KTestWavFile19, "sbc_test_19.wav"); 

_LIT(KTestWavFile20, "sbc_test_20.wav");

_LIT(KTestWavFile21, "sbc_test_21.wav"); 

_LIT(KTestWavFile22, "sbc_test_22.wav");

_LIT(KTestWavFile23, "sbc_test_23.wav"); 

_LIT(KTestWavFile24, "sbc_test_24.wav");

_LIT(KTestWavFile25, "sbc_test_25.wav"); 

_LIT(KTestWavFile26, "sbc_test_26.wav");

_LIT(KTestWavFile27, "sbc_test_27.wav"); 

_LIT(KTestWavFile28, "sbc_test_28.wav");

// Test reference file name

_LIT(KRefSbcFile01, "sbc_test_01.sbc"); 

_LIT(KRefSbcFile02, "sbc_test_02.sbc");

_LIT(KRefSbcFile03, "sbc_test_03.sbc"); 

_LIT(KRefSbcFile04, "sbc_test_04.sbc");

_LIT(KRefSbcFile05, "sbc_test_05.sbc"); 

_LIT(KRefSbcFile06, "sbc_test_06.sbc");

_LIT(KRefSbcFile07, "sbc_test_07.sbc"); 

_LIT(KRefSbcFile08, "sbc_test_08.sbc");

_LIT(KRefSbcFile09, "sbc_test_09.sbc"); 

_LIT(KRefSbcFile10, "sbc_test_10.sbc");

_LIT(KRefSbcFile11, "sbc_test_11.sbc"); 

_LIT(KRefSbcFile12, "sbc_test_12.sbc");

_LIT(KRefSbcFile13, "sbc_test_13.sbc"); 

_LIT(KRefSbcFile14, "sbc_test_14.sbc");

_LIT(KRefSbcFile15, "sbc_test_15.sbc"); 

_LIT(KRefSbcFile16, "sbc_test_16.sbc");

_LIT(KRefSbcFile17, "sbc_test_17.sbc"); 

_LIT(KRefSbcFile18, "sbc_test_18.sbc");

_LIT(KRefSbcFile19, "sbc_test_19.sbc"); 

_LIT(KRefSbcFile20, "sbc_test_20.sbc");

_LIT(KRefSbcFile21, "sbc_test_21.sbc"); 

_LIT(KRefSbcFile22, "sbc_test_22.sbc");

_LIT(KRefSbcFile23, "sbc_test_23.sbc"); 

_LIT(KRefSbcFile24, "sbc_test_24.sbc");

_LIT(KRefSbcFile25, "sbc_test_25.sbc"); 

_LIT(KRefSbcFile26, "sbc_test_26.sbc");

_LIT(KRefSbcFile27, "sbc_test_27.sbc"); 

_LIT(KRefSbcFile28, "sbc_test_28.sbc");

/**

 * List of channel mode settings

 */

enum TChannelMode

	{

	/**

	channel mode is Mono

	*/

	EMono,

	/**

	channel mode is Dual Channel

	*/

	EDual,

	/**

	channel mode is Stereo

	*/

	EStereo,

	/**

	channel mode is Joint Stereo

	*/

	EJoint

	};

/**

 * List of allocation method settings

 */

enum TAllocMethod

	{

	/**

	allocation method is SNR

	*/

	ESNR,

	/**

	allocation method is Loudness

	*/

	ELoud

	};

/**

 * Table of all 28 tests configurations, each row contains the following fields in order

 * subbands, block length, sampling frequency, channel mode, allocation method, bitpool

 */

const TInt gSbcConfig[28][6] = 

	{

		// configuration tests (8)

		{ 4, 16, 48000, EMono,   ESNR,   18 },

		{ 4, 16, 48000, EDual,   ESNR,   16 },

		{ 8,  8, 44100, EMono,   ELoud,  32 },

		{ 8,  8, 44100, EJoint,  ELoud,  56 },

		{ 8,  4, 32000, EMono,   ESNR,   24 },

		{ 8,  4, 32000, EStereo, ESNR,   48 },

		{ 4, 12, 16000, EMono,   ELoud,  20 },

		{ 4, 12, 16000, EJoint,  ELoud,  42 },

		// vbr tests (2)

		{ 4, 16, 44100, EMono,   ELoud,  15 },

		{ 8, 12, 48000, EJoint,  ELoud,  51 },

		// maximum bit rate tests (8)

		{ 8, 16, 16000, EMono,   ELoud, 128 },

		{ 8, 16, 16000, EJoint,  ESNR,  249 },

		{ 8, 16, 32000, EMono,   ELoud,  76 },

		{ 8, 16, 32000, EJoint,  ESNR,  121 },

		{ 8, 16, 44100, EMono,   ELoud,  54 },

		{ 8, 16, 44100, EJoint,  ESNR,   86 },

		{ 8, 16, 48000, EMono,   ELoud,  49 },

		{ 8, 16, 48000, EJoint,  ESNR,   78 },

		// special tests (2)

		{ 8, 16, 48000, EMono,   ESNR,   29 },

		{ 8, 16, 44100, EJoint,  ESNR,   53 },

		// typical tests (8)

		{ 8, 16, 44100, EMono,   ELoud,  19 },

		{ 8, 16, 48000, EMono,   ELoud,  18 },

		{ 8, 16, 44100, EJoint,  ELoud,  35 },

		{ 8, 16, 48000, EJoint,  ELoud,  33 },

		{ 8, 16, 44100, EMono,   ELoud,  31 },

		{ 8, 16, 48000, EMono,   ELoud,  29 },

		{ 8, 16, 44100, EJoint,  ELoud,  53 },

		{ 8, 16, 48000, EJoint,  ELoud,  51 }

	};

/**

 * This function converts number of subbands into TSBCFrameParameters::TSubbands value

 * @param 	"TInt aSubbands"

 *		  	number of subbands

 * @return	"TSBCFrameParameters::TSubbands"

 *			TSBCFrameParameters::TSubbands value

 */

static inline TSBCFrameParameters::TSubbands GetSubbandsL(TInt aSubbands)

	{

	switch (aSubbands)

		{

		case 4: return TSBCFrameParameters::E4Subbands;

		case 8: return TSBCFrameParameters::E8Subbands;

		}

	User::Leave(KErrArgument);

	return TSBCFrameParameters::E4Subbands; // just make the compiler happy

	}

/**

 * This function converts number of blocks into TSBCFrameParameters::TBlockLength value

 * @param 	"TInt aBlocks"

 *		  	number of blocks

 * @return	"TSBCFrameParameters::TBlockLength"

 *			TSBCFrameParameters::TBlockLength value

 */

static inline TSBCFrameParameters::TBlockLength GetBlockLengthL(TInt aBlocks)

	{

	switch (aBlocks)

		{

		case 4: return TSBCFrameParameters::E4Blocks;

		case 8: return TSBCFrameParameters::E8Blocks;

		case 12: return TSBCFrameParameters::E12Blocks;

		case 16: return TSBCFrameParameters::E16Blocks;

		}

	User::Leave(KErrArgument);

	return TSBCFrameParameters::E4Blocks; //just make the compiler happy

	}

/**

 * This function converts sampling frequency value into TSBCFrameParameters::TSamplingFrequency value

 * @param 	"TInt aSampFreq"

 *		  	real sampling frequency value

 * @return	"TSBCFrameParameters::TSamplingFrequency"

 *			TSBCFrameParameters::TSamplingFrequency value

 */

static inline TSBCFrameParameters::TSamplingFrequency GetSampFreqL(TInt aSampFreq)

	{

	switch (aSampFreq)

		{

		case 16000: return TSBCFrameParameters::E16000Hz;

		case 32000: return TSBCFrameParameters::E32000Hz;

		case 44100: return TSBCFrameParameters::E44100Hz;

		case 48000: return TSBCFrameParameters::E48000Hz;

		}

	User::Leave(KErrArgument);

	return TSBCFrameParameters::E16000Hz; // just make the compiler happy

	}

/**

 * This function converts ChannelMode enum value into TSBCFrameParameters::TChannelMode value

 * @param 	"TInt aChnlMode"

 *		  	ChannelMode enum value

 * @return	"TSBCFrameParameters::TChannelMode"

 *			TSBCFrameParameters::TChannelMode value

 */

static inline TSBCFrameParameters::TChannelMode GetChannelModeL(TInt aChnlMode)

	{

	switch (aChnlMode)

		{

		case EMono: return TSBCFrameParameters::EMono;

		case EDual: return TSBCFrameParameters::EDualChannel;

		case EStereo: return TSBCFrameParameters::EStereo;

		case EJoint: return TSBCFrameParameters::EJointStereo;

		}

	User::Leave(KErrArgument);

	return TSBCFrameParameters::EMono; // just make the compiler happy

	}

/**

 * This function converts AllocMethod enum value into TSBCFrameParameters::TAllocationMethod value

 * @param 	"TInt aAllocMthd"

 *		  	AllocMethod enum value

 * @return	"TSBCFrameParameters::TAllocationMethod"

 *			TSBCFrameParameters::TAllocationMethod value

 */

static inline TSBCFrameParameters::TAllocationMethod GetAllocMethodL(TInt aAllocMthd)

	{

	switch (aAllocMthd)

		{

		case ESNR: return TSBCFrameParameters::ESNR;

		case ELoud: return TSBCFrameParameters::ELoudness;

		}

	User::Leave(KErrArgument);

	return TSBCFrameParameters::ESNR;

	}

/**

 * This function gets the configuration for one test from SbcConfig[28]

 * @param 	"TInt aTestNumber"

 *		  	test number

 * @return	"TSBCFrameParameters"

 *			the sbc frame parameters used to configure sbc codec

 */

static TSBCFrameParameters SbcParametersL(TInt aTestNumber)

	{

	if (aTestNumber < 0 || aTestNumber > 28)

		{

		User::Leave(KErrArgument);

		}

	TSBCFrameParameters param;

	param.SetSubbands(GetSubbandsL(gSbcConfig[aTestNumber - 1][0]) );

	param.SetBlockLength(GetBlockLengthL(gSbcConfig[aTestNumber - 1][1]) );

	param.SetSamplingFrequency(GetSampFreqL(gSbcConfig[aTestNumber - 1][2]) );

	param.SetChannelMode(GetChannelModeL(gSbcConfig[aTestNumber - 1][3]) );

	param.SetAllocationMethod(GetAllocMethodL(gSbcConfig[aTestNumber - 1][4]) );

	param.SetBitpool(static_cast<TUint8>(gSbcConfig[aTestNumber - 1][5]) );

	return param;

	}

/**

 * Constructor

 */

CTestStep_MMF_SbcCodec::CTestStep_MMF_SbcCodec()

	{

	}

/**

 * Destructor

 */

CTestStep_MMF_SbcCodec::~CTestStep_MMF_SbcCodec()

	{

	}

/**

 * This function gets test source file name for one test

 * @param 	"TInt aTestNumber"

 *		  	test number

 * @return 	"const TDesC&"

 * 			test file name

 */

const TDesC& CTestStep_MMF_SbcCodec::GetTestFileName(TInt aTestNumber)

	{

	switch (aTestNumber)

		{

		case 1 : return KTestWavFile01;

		case 2 : return KTestWavFile02;

		case 3 : return KTestWavFile03;

		case 4 : return KTestWavFile04;

		case 5 : return KTestWavFile05;

		case 6 : return KTestWavFile06;

		case 7 : return KTestWavFile07;

		case 8 : return KTestWavFile08;

		case 9 : return KTestWavFile09;

		case 10: return KTestWavFile10;

		case 11: return KTestWavFile11;

		case 12: return KTestWavFile12;

		case 13: return KTestWavFile13;

		case 14: return KTestWavFile14;

		case 15: return KTestWavFile15;

		case 16: return KTestWavFile16;

		case 17: return KTestWavFile17;

		case 18: return KTestWavFile18;

		case 19: return KTestWavFile19;

		case 20: return KTestWavFile20;

		case 21: return KTestWavFile21;

		case 22: return KTestWavFile22;

		case 23: return KTestWavFile23;

		case 24: return KTestWavFile24;

		case 25: return KTestWavFile25;

		case 26: return KTestWavFile26;

		case 27: return KTestWavFile27;

		case 28: return KTestWavFile28;

		}

	User::Panic(_L("Invalid test number"), KErrArgument);

	return KTestWavFile01;

	}

/**

 * This function gets test reference file name for one test

 * @param 	"TInt aTestNumber"

 *		  	test number

 * @return 	"const TDesC&"

 * 			reference file name

 */

const TDesC& CTestStep_MMF_SbcCodec::GetRefFileName(TInt aTestNumber)

	{

	switch (aTestNumber)

		{

		case 1 : return KRefSbcFile01;

		case 2 : return KRefSbcFile02;

		case 3 : return KRefSbcFile03;

		case 4 : return KRefSbcFile04;

		case 5 : return KRefSbcFile05;

		case 6 : return KRefSbcFile06;

		case 7 : return KRefSbcFile07;

		case 8 : return KRefSbcFile08;

		case 9 : return KRefSbcFile09;

		case 10: return KRefSbcFile10;

		case 11: return KRefSbcFile11;

		case 12: return KRefSbcFile12;

		case 13: return KRefSbcFile13;

		case 14: return KRefSbcFile14;

		case 15: return KRefSbcFile15;

		case 16: return KRefSbcFile16;

		case 17: return KRefSbcFile17;

		case 18: return KRefSbcFile18;

		case 19: return KRefSbcFile19;

		case 20: return KRefSbcFile20;

		case 21: return KRefSbcFile21;

		case 22: return KRefSbcFile22;

		case 23: return KRefSbcFile23;

		case 24: return KRefSbcFile24;

		case 25: return KRefSbcFile25;

		case 26: return KRefSbcFile26;

		case 27: return KRefSbcFile27;

		case 28: return KRefSbcFile28;

		}

	User::Panic(_L("Invalid test number"), KErrArgument);

	return KRefSbcFile01;

	}

/**

 * This function reads source out from source file from a specific position 

 and fill the srouce into the source buffer.

 * @param 	"const TDesC& aFileName"

 *		  	the source file name

 * @param 	"TDes8& aSrcBuffer"

 *		  	the source buffer

 * @param 	"TInt aFilePos"

 *		  	the file position

 * @leave if reading file failed

 */

void CTestStep_MMF_SbcCodec::ReadSourceL(const TDesC& aFileName, TDes8& aSrcBuffer, TInt aFilePos)

	{

	TFileName srcFileName(KSourceFileDir);

	srcFileName.Append(aFileName);

	// connect to file service

	RFs fs;

	User::LeaveIfError(fs.Connect());

	CleanupClosePushL(fs);

	RFile srcFile;

	User::LeaveIfError(srcFile.Open(fs, srcFileName, EFileRead | EFileShareAny) );

	CleanupClosePushL(srcFile);

	aFilePos += KWavFileHeaderSize; // skip wave file header

	User::LeaveIfError(srcFile.Seek(ESeekStart, aFilePos) );

	User::LeaveIfError(srcFile.Read(aSrcBuffer) );

	CleanupStack::PopAndDestroy(2);

	}

/**

 * This function writes destination into destination file from a specific position.

 * @param 	"const TDesC& aFileName"

 *		  	the destination file name

 * @param 	"TDes8& aDstBuffer"

 *		  	the destination buffer

 * @param 	"TInt aFilePos"

 *		  	the file position

 * @leave if writing file failed

 */

void CTestStep_MMF_SbcCodec::WriteDstToFileL(const TDesC& aFileName, const TDes8& aDstBuffer, TInt aFilePos)

	{

	TFileName dstFileName(KOutputFileDir);

	dstFileName.Append(aFileName);

	// connect to file service

	RFs fs;

	User::LeaveIfError(fs.Connect());

	CleanupClosePushL(fs);

	RFile dstFile;

	TInt err = dstFile.Open(fs, dstFileName, EFileWrite);

	if (err == KErrNotFound) // file does not exist - create it

		{

		err = dstFile.Create(fs, dstFileName, EFileWrite);

		}

	if (err != KErrNone)

		{

		User::Leave(err);

		}

    CleanupClosePushL(dstFile);

	User::LeaveIfError(dstFile.Seek(ESeekStart, aFilePos) );

	User::LeaveIfError(dstFile.Write(aDstBuffer) );

	CleanupStack::PopAndDestroy(2);

	}

/**

 * This function compares two files to check if they are the same.

 * @param 	"const TDesC& aFileName"

 *		  	the compare and reference files name

 * @return	"TInt"

 * 			0: two files are the same

 *			-1: two files are NOT the same

 * @leave if reading tow files failed

 */

TInt CTestStep_MMF_SbcCodec::CompareFileL(const TDesC& aFileName)

	{

	TFileName cmpFileName(KOutputFileDir);

	cmpFileName.Append(aFileName);

	TFileName refFileName(KReferenceFileDir);

	refFileName.Append(aFileName);

	// connect to file service

	RFs fs;

	User::LeaveIfError(fs.Connect());

	CleanupClosePushL(fs);

	RFile cmpFile;

	User::LeaveIfError(cmpFile.Open(fs, cmpFileName, EFileRead) );

    CleanupClosePushL(cmpFile);

	RFile refFile;

	User::LeaveIfError(refFile.Open(fs, refFileName, EFileRead) );

    CleanupClosePushL(refFile);

    TInt cmpFileSize = 0;

    TInt refFileSize = 0;

    cmpFile.Size(cmpFileSize);

    refFile.Size(refFileSize);

    if (cmpFileSize != refFileSize)

    	{

		CleanupStack::PopAndDestroy(3); // refFile, cmpFile, fs

    	return -1;

    	}

	CMMFDataBuffer* cmpFileBuf = CMMFDataBuffer::NewL(KDefaultBufferSize);

	CleanupStack::PushL(cmpFileBuf);

	CMMFDataBuffer* refFileBuf = CMMFDataBuffer::NewL(KDefaultBufferSize);

	CleanupStack::PushL(refFileBuf);

    TInt result = 0;

    for (;;)

    	{

    	User::LeaveIfError(cmpFile.Read(cmpFileBuf->Data() ) );

    	if (cmpFileBuf->Data().Length() == 0) // end of file

    		{

    		break;

    		}

    	User::LeaveIfError(refFile.Read(refFileBuf->Data() ) );

    	if (cmpFileBuf->Data() != refFileBuf->Data() )

    		{

    		result = -1;

    		break;

    		}

    	cmpFileBuf->Data().Zero();

    	refFileBuf->Data().Zero();

    	}

	CleanupStack::PopAndDestroy(5); // refFileBuff, cmpFileBuff, refFile, cmpFile, fs

	return result;

	}

/**

 * This function is called by two TestNewL() tests, it calls ProcessL() once 

 * and checks the result.

 * @param 	"CMMFCodec* aCodec"

 * 			the codec for test

 * @return	"TVerdict"

 *			EPass: at least one byte src processed and one byte of dst generated and no error 

 *			EFail: other wise.

 * @leave if out of memory or ProcessL() leaves

 */

TVerdict CTestStep_MMF_SbcCodec::ProcessOnceForNewL(CMMFCodec* aCodec)

	{

	TVerdict testResult = EFail;

	// create buffers

	CMMFDataBuffer* srcBuffer = CMMFDataBuffer::NewL(KDefaultBufferSize);

	CleanupStack::PushL(srcBuffer);

	CMMFDataBuffer* dstBuffer = CMMFDataBuffer::NewL(KDefaultBufferSize);

	CleanupStack::PushL(dstBuffer);

	TInt testNumber = 28;

	TPckgBuf<TSBCFrameParameters> config(SbcParametersL(testNumber) );

	aCodec->ConfigureL(KSbcCodecConfigUid, config);

	ReadSourceL(GetTestFileName(testNumber), srcBuffer->Data(), 0);

	if (srcBuffer->Data().Length() > 0) // end of file

		{

		TCodecProcessResult result = aCodec->ProcessL(*srcBuffer, *dstBuffer);

		if (result.iDstBytesAdded > 0 && result.iSrcBytesProcessed > 0)

			{

			testResult = EPass;

			}

		}

	else

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::ProcessOnceForNewL no source read") );

		}

	CleanupStack::PopAndDestroy(2); // dstBuffer, srcBuffer

	return testResult;

}

/**

 * This function tests codec instantiation by ECom plugin UID.

 * @param 	"TUid aCodecUID"

 * 			the codec ECom UID

 * @return	"TVerdict"

 *			EPass: ProcessOnceForNewL() passes 

 *			EFail: ProcessOnceForNewL() fails

 * @leave if CMMFCodec::NewL() leaves

 */

TVerdict CTestStep_MMF_SbcCodec::TestNewL(TUid aCodecUID)

	{

	//create codec from uid

	CMMFCodec* codec = NULL;

	TRAPD(err, codec = CMMFCodec::NewL(aCodecUID) );

	if (err != KErrNone)

		{

		ERR_PRINTF2(_L(">> CTestStep_MMF_SbcCodec::TestNewL Leave occurred in NewL, error code %d"), err);

		return EFail;

		}

	if (!codec)

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::TestNewL NewL returned NULL") );

		return EFail;

		}

	CleanupStack::PushL(codec);

	TVerdict result = ProcessOnceForNewL(codec);

	CleanupStack::PopAndDestroy(); //codec

	return result;

	}

/**

 * This function tests codec instantiation by two FourCC codes.

 * @param 	"const TFourCC& aSrcFourCC"

 * 			the FourCC code of source media type

 * @param 	"const TFourCC& aDstFourCC"

 * 			the FourCC code of destination media type

 * @return	"TVerdict"

 *			EPass: ProcessOnceForNewL() passes

 *			EFail: ProcessOnceForNewL() fails

 * @leave if CMMFCodec::NewL() or ProcessOnceForNewL() leaves

 */

TVerdict CTestStep_MMF_SbcCodec::TestNewL(const TFourCC& aSrcFourCC, const TFourCC& aDstFourCC)

	{

	//create codec from uid

	CMMFCodec* codec = NULL;

	TRAPD(err, codec = CMMFCodec::NewL(aSrcFourCC, aDstFourCC) );

	if (err != KErrNone)

		{

		ERR_PRINTF2(_L(">> CTestStep_MMF_SbcCodec::TestNewL Leave occurred in NewL, error code %d"), err);

		return EFail;

		}

	if (!codec)

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::TestNewL NewL returned NULL") );

		return EFail;

		}

	CleanupStack::PushL(codec);

	TVerdict result = ProcessOnceForNewL(codec);

	CleanupStack::PopAndDestroy(); //codec

	return result;

	}

/**

 * Performance test

 * This function tests ProcessL() function, it checks if ProcessL() returns the 

 * correct result with different buffer size settings

 * @return	"TVerdict"

 * 			EPass: the results are expected ones. 

 * 			EFail: otherwise. 

 * @leave if out of memory or ProcessL(), ReadSourceL() leaves

 */

TVerdict CTestStep_MMF_SbcCodec::TestProcessL()

	{

	//create codec from uid

	CMMFCodec* codec = NULL;

	TRAPD(err, codec = CMMFCodec::NewL(KSbcCodecPluginUid) );

	if (err != KErrNone)

		{

		ERR_PRINTF2(_L(">> CTestStep_MMF_SbcCodec::TestProcessL Leave occurred in NewL, error code %d"), err);

		return EFail;

		}

	if (!codec)

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::TestProcessL NewL returned NULL") );

		return EFail;

		}

	CleanupStack::PushL(codec);

	const TInt testNumber = 28;

	TSBCFrameParameters param = SbcParametersL(testNumber);

	const TUint sbcFrameLength = param.CalcFrameLength();

	const TUint pcmFrameSize = sizeof(TInt16) * param.BlockLength() * param.Channels() * param.Subbands();

	// create src buffer

	CMMFDataBuffer* srcBuffer = CMMFDataBuffer::NewL(pcmFrameSize);

	CleanupStack::PushL(srcBuffer);

	// dummy buffer, smaller than one frame length

	CMMFDataBuffer* dummyBuffer = CMMFDataBuffer::NewL(sbcFrameLength - 1);

	CleanupStack::PushL(dummyBuffer);

	// create dst buffer

	CMMFDataBuffer* dstBuffer = CMMFDataBuffer::NewL(sbcFrameLength); 

	CleanupStack::PushL(dstBuffer);

	ReadSourceL(GetTestFileName(testNumber), srcBuffer->Data(), 0);

	if (static_cast<TUint>(srcBuffer->Data().Length() ) != pcmFrameSize)

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::TestProcessL read source failed") );

		CleanupStack::PopAndDestroy(3); // dstBuffer, srcBuffer, codec

		return EFail;

		}

	TVerdict testResult = EPass;

	TCodecProcessResult procResult;

	/** test ProcessL() without ConfigureL() called, should leave with KErrAbort */

	TRAP(err, procResult = codec->ProcessL(*srcBuffer, *dstBuffer) );

	if (err != KErrAbort || 

		procResult.iSrcBytesProcessed != 0 || 

		procResult.iDstBytesAdded != 0 || 

		procResult.iStatus != TCodecProcessResult::EProcessError)

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::TestProcessL failed, ProcessL didn't leave with KErrAbort when ConfigureL() is not called") );

		testResult = EFail;

		}

	/** test ProcessL() with small dst buffer size, should leave with KErrArgument */

	TPckgBuf<TSBCFrameParameters> config(param);

	codec->ConfigureL(KSbcCodecConfigUid, config);

	codec->ResetL();

	TRAP(err, procResult = codec->ProcessL(*srcBuffer, *dummyBuffer) );

	if (err != KErrArgument || 

		procResult.iSrcBytesProcessed != 0 || 

		procResult.iDstBytesAdded != 0 || 

		procResult.iStatus != TCodecProcessResult::EProcessError)

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::TestProcessL failed in ProcessL") );

		testResult = EFail;

		}

	/** test ProcessL() with correct settings, should return EProcessComplete */

	codec->ResetL();

	TRAP(err, procResult = codec->ProcessL(*srcBuffer, *dstBuffer) );

	if (err != KErrNone || 

		procResult.iSrcBytesProcessed != pcmFrameSize || 

		procResult.iDstBytesAdded != sbcFrameLength || 

		procResult.iStatus != TCodecProcessResult::EProcessComplete)

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::TestProcessL failed, ProcessL didn't work propertly with correct settings") );

		testResult = EFail;

		}

	/** test ProcessL() with not enough dst buffer remained, should return EProcessIncomplete */

	// now the remaining dst buffer size is one byte less than one frame length

	dstBuffer->SetPosition(1); 

	codec->ResetL();

	TRAP(err, procResult = codec->ProcessL(*srcBuffer, *dstBuffer) );

	if (err != KErrNone || 

		procResult.iSrcBytesProcessed != 0 || 

		procResult.iDstBytesAdded != 0 || 

		procResult.iStatus != TCodecProcessResult::EProcessIncomplete)

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::TestProcessL failed, ProcessL didn't return EProcessIncomplete when there is not enough dst buffer") );

		testResult = EFail;

		}

	/** test ProcessL() with not enough src buffer remained, should return EDstNotFilled */

	// set this position to an even value as only even number of samples will be cached

	const TInt srcPos = 2;

	// the remaining src buffer size is less than one frame, it should be cached, 

	// and return EProcessDstNotFilled 

	srcBuffer->SetPosition(srcPos); 

	// now the remaining dst buffer size is one frame length

	dstBuffer->SetPosition(0);

	codec->ResetL();

	TRAP(err, procResult = codec->ProcessL(*srcBuffer, *dstBuffer) );

	if (err != KErrNone || 

		procResult.iSrcBytesProcessed != pcmFrameSize - srcPos || 

		procResult.iDstBytesAdded != 0 || 

		procResult.iStatus != TCodecProcessResult::EDstNotFilled)

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::TestProcessL failed, ProcessL didn't return EDstNotFilled when there is not enough src buffer") );

		testResult = EFail;

		}

	CleanupStack::PopAndDestroy(4); // dstBuffer, dummyBuffer, srcBuffer, codec

	return testResult;

	}

/**

 * This function tests the whole encoding routine with a specific settings (e.g. 

 * sbc frameparameters, src buffer size, dst buffer size) and compares the result 

 * file with reference file.

 * @param	"TInt aTestNumber"

 * 			the test number.

 * @param	"TInt aSrcBufSize"

 * 			the source buffer size.

 * @param	"TInt aDstBufSize"

 * 			the destination buffer size.

 * @return	"TVerdict"

 * 			EPass: encoded file is the same as the reference file. 

 * 			EFail: encoded file is NOT the same as the reference file. 

 * @leave if out of memory or ProcessL(), ReadSourceL(), WriteDstToFileL() leaves

 */

TVerdict CTestStep_MMF_SbcCodec::TestEncodeL(TInt aTestNumber, TInt aSrcBufSize, TInt aDstBufSize)

	{

	//create codec from uid

	CMMFCodec* codec = NULL;

	TRAPD(err, codec = CMMFCodec::NewL(KSbcCodecPluginUid) );

	if (err != KErrNone)

		{

		ERR_PRINTF2(_L(">> CTestStep_MMF_SbcCodec::TestEncodeL Leave occurred in NewL, error code %d"), err);

		return EFail;

		}

	if (!codec)

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::TestEncodeL NewL returned NULL") );

		return EFail;

		}

	CleanupStack::PushL(codec);

	// create buffers

	CMMFDataBuffer* srcBuffer = CMMFDataBuffer::NewL(aSrcBufSize);

	CleanupStack::PushL(srcBuffer);

	CMMFDataBuffer* dstBuffer = CMMFDataBuffer::NewL(aDstBufSize);

	CleanupStack::PushL(dstBuffer);

	TPckgBuf<TSBCFrameParameters> config(SbcParametersL(aTestNumber) );

	codec->ConfigureL(KSbcCodecConfigUid, config);

	TInt srcFilePos = 0;

	TInt dstFilePos = 0;

	for (;;)

		{

		ReadSourceL(GetTestFileName(aTestNumber), srcBuffer->Data(), srcFilePos);

		if (srcBuffer->Data().Length() == 0) // end of file

			{

			break;

			}

		TCodecProcessResult result = codec->ProcessL(*srcBuffer, *dstBuffer);

		WriteDstToFileL(GetRefFileName(aTestNumber), dstBuffer->Data(), dstFilePos);

		srcBuffer->Data().Zero();

		dstBuffer->Data().Zero();

		srcFilePos += result.iSrcBytesProcessed;

		dstFilePos += result.iDstBytesAdded;

		}

	TVerdict result = EPass;

	if (CompareFileL(GetRefFileName(aTestNumber) ) != 0)

		{

		result = EFail;

		}

	CleanupStack::PopAndDestroy(3); // dstBuffer, srcBuffer, codec

	return result;

	}

/**

 * This function tests codec ResetL() function make sure the cach buffer 

 * gets cleared when it gets called. It compares the encoded file with the reference file

 * @return	"TVerdict"

 * 			EPass: encoded file is the same as the reference file. 

 * 			EFail: encoded file is NOT the same as the reference file. 

 * @leave if out of memory or ProcessL(), ReadSourceL(), WriteDstToFileL() leaves

 */

TVerdict CTestStep_MMF_SbcCodec::TestRepositionL()

	{

	//create codec from uid

	CMMFCodec* codec = NULL;

	TRAPD(err, codec = CMMFCodec::NewL(KSbcCodecPluginUid) );

	if (err != KErrNone)

		{

		ERR_PRINTF2(_L(">> CTestStep_MMF_SbcCodec::TestRepositionL Leave occurred in NewL, error code %d"), err);

		return EFail;

		}

	if (!codec)

		{

		ERR_PRINTF1(_L(">> CTestStep_MMF_SbcCodec::TestRepositionL NewL returned NULL") );

		return EFail;

		}

	CleanupStack::PushL(codec);

	const TInt testNumber = 28;

	// this size will make sure some samples will be cached, 

	// also make sure it is an EVEN number

	const TInt srcBufSize = 4094; 

	const TInt dstBufSize = 2048;

	// create buffers

	CMMFDataBuffer* srcBuffer = CMMFDataBuffer::NewL(srcBufSize);

	CleanupStack::PushL(srcBuffer);

	CMMFDataBuffer* dstBuffer = CMMFDataBuffer::NewL(dstBufSize);

	CleanupStack::PushL(dstBuffer);

	TSBCFrameParameters param = SbcParametersL(testNumber);

	TPckgBuf<TSBCFrameParameters> config(param);

	codec->ConfigureL(KSbcCodecConfigUid, config);

	const TUint pcmFrameSize = sizeof(TInt16) * param.BlockLength() * param.Channels() * param.Subbands();

	TInt srcFilePos = 0;

	TInt dstFilePos = 0;

	for (;;)

		{

		ReadSourceL(GetTestFileName(testNumber), srcBuffer->Data(), srcFilePos);

		if (srcBuffer->Data().Length() == 0) // end of file

			{

			break;

			}

		TCodecProcessResult result = codec->ProcessL(*srcBuffer, *dstBuffer);

		WriteDstToFileL(GetRefFileName(testNumber), dstBuffer->Data(), dstFilePos);

		// clear up any cached samples

		codec->ResetL();

		// the iSrcBytesProcessed includes the encoded src size plus the cached src size, 

		// here set the iSrcBytesProcessed to the encoded src size only as we cleared up 

		// the cached samples

		result.iSrcBytesProcessed -= srcBuffer->Data().Length() % pcmFrameSize;

		srcBuffer->Data().Zero();

		dstBuffer->Data().Zero();

		// set new src file position, which is the end of encoded src (no cached src)

		srcFilePos += result.iSrcBytesProcessed;

		// set new dst file position

		dstFilePos += result.iDstBytesAdded;

		}