/*
* Copyright (c) 2002-2004 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: MCC DTMF CodecInformation
*
*/
// INCLUDE FILES
#include "mmcccodecdtmf.h"
#include "mccuids.hrh"
#include "mmccinterfacelogs.h"
#include "mccinternalcodecs.h"
// EXTERNAL DATA STRUCTURES
// EXTERNAL FUNCTION PROTOTYPES
// CONSTANTS
const TUint KDefaultSamplingFreq = 8000;
const TInt KMaxFmtpAttrLength( 50 );
const TText8 KCharComma = ',';
const TText8 KCharHyphen = '-';
const TText8 KCharSpace = ' ';
// MACROS
// LOCAL CONSTANTS AND MACROS
// MODULE DATA STRUCTURES
// LOCAL FUNCTION PROTOTYPES
// FORWARD DECLARATIONS
// ============================= LOCAL FUNCTIONS ===============================
// ============================ MEMBER FUNCTIONS ===============================
// -----------------------------------------------------------------------------
// CMccCodecDTMF::CMccCodecDTMF
// C++ default constructor can NOT contain any code, that
// might leave.
// -----------------------------------------------------------------------------
//
CMccCodecDTMF::CMccCodecDTMF() : CMccCodecInformation()
{
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::ConstructL
// Symbian 2nd phase constructor can leave.
// -----------------------------------------------------------------------------
//
void CMccCodecDTMF::ConstructL()
{
iSdpName.Copy( KTelephoneEvent );
iFmtpAttr = HBufC8::NewL( KMaxFmtpAttrLength );
SetPTime( KDTMFPTime );
SetPayloadType( KDefaultDtmfPT );
SetCodecMode( EDTMFModeEvent );
SetSamplingFreq( KDefaultSamplingFreq );
SetAllowedBitrates( KMccAllowedDtmfNumberALL );
iFourCC = KMccFourCCIdDTMF;
iPayloadFormatEncoder = KImplUidDTMFPayloadFormatEncode;
iPayloadFormatDecoder = KImplUidDTMFPayloadFormatDecode;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::NewL
// Two-phased constructor.
// -----------------------------------------------------------------------------
//
CMccCodecDTMF* CMccCodecDTMF::NewL()
{
CMccCodecDTMF* self = new( ELeave ) CMccCodecDTMF;
CleanupStack::PushL( self );
self->ConstructL();
CleanupStack::Pop( self );
return self;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::~CMccCodecDTMF
// -----------------------------------------------------------------------------
//
CMccCodecDTMF::~CMccCodecDTMF()
{
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::RequireSignalling
// -----------------------------------------------------------------------------
//
TBool CMccCodecDTMF::RequireSignalling(
const CMccCodecInformation& aCandidate ) const
{
__INTERFACE( "CMccCodecDTMF::RequireSignalling" )
TBool ret = EFalse;
if ( iPTime != aCandidate.PTime() )
{
__INTERFACE( "CMccCodecDTMF::RequireSignalling, PTime changed" )
ret = ETrue;
}
if ( iMaxPTime != aCandidate.MaxPTime() )
{
__INTERFACE( "CMccCodecDTMF::RequireSignalling, MaxPTime changed" )
ret = ETrue;
}
if ( iPayloadType != aCandidate.PayloadType() )
{
__INTERFACE( "CMccCodecDTMF::RequireSignalling, PayloadType changed" )
ret = ETrue;
}
if ( iCodecMode != aCandidate.CodecMode() )
{
__INTERFACE( "CMccCodecDTMF::RequireSignalling, CodecMode changed" )
ret = ETrue;
}
__INTERFACE_INT1( "CMccCodecDTMF::RequireSignalling, exit with", ret )
return ret;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::SetBitrate
// -----------------------------------------------------------------------------
//
TInt CMccCodecDTMF::SetBitrate( TUint aBitrate )
{
return ( aBitrate > 0 ) ? KErrNotSupported : KErrNone;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::SetSamplingFreq
// -----------------------------------------------------------------------------
//
TInt CMccCodecDTMF::SetSamplingFreq( TUint32 aSamplingFreq )
{
return ( KDefaultSamplingFreq != aSamplingFreq ) ? KErrNotSupported : KErrNone;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::SetSdpName
// Sets the SDP name
// -----------------------------------------------------------------------------
//
TInt CMccCodecDTMF::SetSdpName( const TDesC8& aSdpName )
{
if ( 0 == aSdpName.CompareF( KTelephoneEvent ) )
{
iSdpName.Copy( aSdpName );
}
else
{
return KErrNotSupported;
}
return KErrNone;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::PayloadType
// Sets the payload type
// -----------------------------------------------------------------------------
//
TInt CMccCodecDTMF::SetPayloadType( TUint8 aPayloadType )
{
if ( aPayloadType < KMinDynamicPT ||
aPayloadType > KMaxPayloadType )
{
return KErrNotSupported;
}
else
{
iPayloadType = aPayloadType;
}
return KErrNone;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::SetCodecMode
// Sets the codec mode.
// -----------------------------------------------------------------------------
//
TInt CMccCodecDTMF::SetCodecMode( TCodecMode aCodecMode )
{
if ( EDTMFModeEvent == aCodecMode )
{
iCodecMode = aCodecMode;
return KErrNone;
}
else if( EDTMFModeInband == aCodecMode )
{
iCodecMode = aCodecMode;
return KErrNone;
}
else
{
return KErrNotSupported;
}
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::SetAllowedBitrates
// -----------------------------------------------------------------------------
//
TInt CMccCodecDTMF::SetAllowedBitrates( TUint aBitrateMask )
{
if ( (aBitrateMask >> 16 ) > 0 )
{
return KErrArgument;
}
else
{
iBitrateMask = KMccAllowedDtmfNumberALL;
iBitrateMask &= aBitrateMask;
}
return KErrNone;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::EnableVAD
// Enable / Disable VAD
// -----------------------------------------------------------------------------
//
TInt CMccCodecDTMF::EnableVAD( TBool aEnableVAD )
{
return aEnableVAD ? KErrNotSupported : KErrNone;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::SetPTime
// Set PTime
// -----------------------------------------------------------------------------
//
TInt CMccCodecDTMF::SetPTime( TUint aPTime )
{
if ( ( aPTime <= 200 ) && (( aPTime % 10 ) == 0 ))
{
iPTime = aPTime;
return KErrNone;
}
else
{
return KErrNotSupported;
}
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::SetMaxPTime
// Set Max PTime
// -----------------------------------------------------------------------------
//
TInt CMccCodecDTMF::SetMaxPTime( TUint aMaxPTime )
{
if ( ( aMaxPTime <= 200 ) && (( aMaxPTime % 10 ) == 0 ))
{
iMaxPTime = aMaxPTime;
return KErrNone;
}
else
{
return KErrNotSupported;
}
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::CloneDefaultsL
// Make a default setting clone from this DTMF codec
// -----------------------------------------------------------------------------
//
CMccCodecInformation* CMccCodecDTMF::CloneDefaultsL()
{
return CMccCodecDTMF::NewL();
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::CloneDetailedL
// -----------------------------------------------------------------------------
//
CMccCodecInformation* CMccCodecDTMF::CloneDetailedL()
{
CMccCodecDTMF* newCodec = CMccCodecDTMF::NewL();
CleanupStack::PushL( newCodec );
newCodec->SetBitrate( this->Bitrate() );
newCodec->SetAllowedBitrates( this->AllowedBitrates() );
newCodec->SetCodecMode( this->CodecMode() );
newCodec->SetMaxPTime( this->MaxPTime() );
newCodec->SetPayloadType( this->PayloadType() );
newCodec->SetPTime( this->PTime() );
newCodec->SetSamplingFreq( this->SamplingFreq() );
newCodec->SetSdpName( this->SdpName() );
CleanupStack::Pop( newCodec );
return newCodec;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::GetFmtpL
// -----------------------------------------------------------------------------
//
TDesC8& CMccCodecDTMF::GetFmtpL()
{
__INTERFACE( "CMccCodecDTMF::GetFmtpL" )
delete iFmtpAttr;
iFmtpAttr = NULL;
CreateFmtpAttrListL();
__INTERFACE( "CMccCodecDTMF::GetFmtpL, exit" )
return *iFmtpAttr;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::CreateFmtpAttrListL
// -----------------------------------------------------------------------------
//
void CMccCodecDTMF::CreateFmtpAttrListL()
{
__INTERFACE( "CMccCodecDTMF::CreateFmtpAttrListL" )
RArray<TUint> toneNumbers;
CleanupClosePushL( toneNumbers );
GetAllowedToneNumbersArrayL( toneNumbers );
CreateFmtpAttrListL( toneNumbers );
CleanupStack::PopAndDestroy(); // toneNumbers
__INTERFACE( "CMccCodecDTMF::CreateFmtpAttrListL, exit" )
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::ParseFmtpAttrL
// -----------------------------------------------------------------------------
//
TBool CMccCodecDTMF::ParseFmtpAttrL( const TDesC8& aFmtp )
{
__INTERFACE( "CMccCodecDTMF::ParseFmtpAttrL" )
__INTERFACE_STR( "CMccCodecDTMF::ParseFmtpAttrL, fmtpValue=", aFmtp )
/*
a=fmtp:<format> <list of values>
The list of values consists of comma-separated elements, which can be
either a single decimal number or two decimal numbers separated by a
hyphen (dash), where the second number is larger than the first. No
whitespace is allowed between numbers or hyphens. The list does not
have to be sorted.
*/
TBool updated = EFalse;
if ( aFmtp.Length() > 0 )
{
// white space is not allowed
if ( aFmtp.Locate( KCharSpace ) >= 0 )
{
User::Leave( KErrArgument );
}
CPtrC8Array* tokens = TokenizeL( aFmtp, KCharComma );
CleanupStack::PushL( tokens );
// Mask will be updated while parsing
iBitrateMask = 0;
updated = EncodeTokensL( *tokens );
CleanupStack::PopAndDestroy( tokens );
}
__INTERFACE( "CMccCodecDTMF::ParseFmtpAttrL, exit" )
return updated;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::TokenizeL
// -----------------------------------------------------------------------------
//
CPtrC8Array* CMccCodecDTMF::TokenizeL( const TDesC8& aValue,
const TChar& aSeparator )
{
__INTERFACE( "CMccCodecDTMF::TokenizeLC" )
__ASSERT_ALWAYS ( aValue.Length() > 0, User::Leave(KErrArgument) );
__ASSERT_ALWAYS ( aSeparator == KCharComma, User::Leave(KErrArgument) );
CPtrC8Array* tokens = new (ELeave) CPtrC8Array(1);
CleanupStack::PushL( tokens );
TLex8 lex(aValue);
TChar chr = lex.Get();
TInt previuosCommaPos = -1;
TInt currentCommaPos = 0;
while ( chr )
{
// seperator (comma ',') found
if (chr == aSeparator)
{
AddTokenL( *tokens, aValue, previuosCommaPos+1, currentCommaPos-1 );
previuosCommaPos = currentCommaPos;
}
chr = lex.Get();
currentCommaPos++;
}
// the token is last one or first one without comma found
if ( ( currentCommaPos - previuosCommaPos ) > 1 )
{
AddTokenL( *tokens, aValue, previuosCommaPos+1, currentCommaPos-1 );
}
else // token error
{
User::Leave( KErrArgument );
}
CleanupStack::Pop( tokens );
__INTERFACE( "CMccCodecDTMF::TokenizeLC, exit" )
return tokens;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::AddTokenL
// -----------------------------------------------------------------------------
//
void CMccCodecDTMF::AddTokenL ( CPtrC8Array& aTokenArray,
const TDesC8& aValue,
TInt aTokenStartPos,
TInt aTokenEndPos )
{
__INTERFACE( "CMccCodecDTMF::AddTokenL" )
__ASSERT_ALWAYS ( aTokenStartPos >= 0, User::Leave(KErrArgument) );
__ASSERT_ALWAYS ( aTokenEndPos >= 0, User::Leave(KErrArgument) );
__ASSERT_ALWAYS ( aTokenStartPos <= aTokenEndPos, User::Leave(KErrArgument) );
TUint8 tokenlength = aTokenEndPos - aTokenStartPos + 1;
TPtrC8 token ( aValue.Mid( aTokenStartPos , tokenlength ) );
aTokenArray.AppendL(token);
__INTERFACE( "CMccCodecDTMF::AddTokenL, exit" )
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::EncodeTokensL
// -----------------------------------------------------------------------------
//
TBool CMccCodecDTMF::EncodeTokensL( MDesC8Array& aTokenArray )
{
__INTERFACE( "CMccCodecDTMF::EncodeTokensL" )
__ASSERT_ALWAYS ( aTokenArray.MdcaCount() > 0, User::Leave(KErrArgument) );
TBool updated = EFalse;
for ( TInt i=0; i < aTokenArray.MdcaCount(); i++ )
{
if ( ParseTokenL(aTokenArray.MdcaPoint( i )) )
{
updated = ETrue;
}
}
__INTERFACE( "CMccCodecDTMF::EncodeTokensL, exit" )
return updated;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::ParseTokenL
// -----------------------------------------------------------------------------
//
TBool CMccCodecDTMF::ParseTokenL( const TDesC8& aValue )
{
__INTERFACE( "CMccCodecDTMF::ParseTokenL" )
__ASSERT_ALWAYS ( aValue.Length() > 0, User::Leave(KErrArgument) );
TBool updated = EFalse;
TBufC8<256> value(aValue);
_LIT8( KFMTPEVENTS, "events=" );
TBufC8<32> value2(KFMTPEVENTS);
TInt match = value.Find( KFMTPEVENTS );
if( KErrNotFound != match )
{
value = value.Mid( match + value2.Length() );
}
TLex8 lex(value);
TChar chr = lex.Get();
TUint8 numberofHyphens = 0;
while (chr)
{
// token must contain digit numbers,
// which may seperated by hyphens '-',
// e.g 0-15 or e.g 60 or e.g 7
if ( chr == KCharHyphen )
{
++numberofHyphens;
}
// token must contains position digit number or one hyphen
if ( ( chr != KCharHyphen && !chr.IsDigit() ) || numberofHyphens > 1 )
{
User::Leave( KErrArgument );
}
chr = lex.Get();
}
// try to find the hyphen '-', aValue might contains
// e.g 1-15,60,70 or 60,70
TInt hyphenPosition = value.Locate( KCharHyphen );
// the aValue does not contain hyphen '-', e.g 60
if ( hyphenPosition < 0 )
{
updated = ParseToneNumberL( value );
}
// the aValue contains hyphen '-', e.g 0-15
else if ( hyphenPosition > 0 && hyphenPosition < value.Length() )
{
TPtrC8 leftside ( value.Left(hyphenPosition) );
TPtrC8 rightside ( value.Right( value.Length() - hyphenPosition - 1) );
updated = ParseToneNumbersL( leftside, rightside );
}
// the aValue is wrong, e.g -70 or 60-
else
{
User::Leave( KErrArgument );
}
__INTERFACE( "CMccCodecDTMF::ParseTokenL, exit" )
return updated;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::ParseToneNumberL
// -----------------------------------------------------------------------------
//
TBool CMccCodecDTMF::ParseToneNumberL( const TDesC8& aValue )
{
__INTERFACE( "CMccCodecDTMF::ParserToneNumberL" )
__ASSERT_ALWAYS ( aValue.Length() > 0, User::Leave(KErrArgument) );
TBool updated = EFalse;
TLex8 myLex ( aValue );
TUint myNumber;
User::LeaveIfError( myLex.Val( myNumber, EDecimal ) );
if ( myNumber <= 15 )
{
updated = AddAllowedBit( myNumber );
}
return updated;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::ParseToneNumbersL
// -----------------------------------------------------------------------------
//
TBool CMccCodecDTMF::ParseToneNumbersL( const TDesC8& aValueLeft,
const TDesC8& aValueRitght )
{
__INTERFACE( "CMccCodecDTMF::ParserToneNumbersL" )
__ASSERT_ALWAYS ( aValueLeft.Length() > 0, User::Leave(KErrArgument) );
__ASSERT_ALWAYS ( aValueRitght.Length() > 0, User::Leave(KErrArgument) );
TBool updated = EFalse;
TLex8 myLeftLex ( aValueLeft );
TUint myLeftNumber;
User::LeaveIfError( myLeftLex.Val( myLeftNumber, EDecimal ) );
TLex8 myRightLex ( aValueRitght );
TUint myRightNumber;
User::LeaveIfError( myRightLex.Val( myRightNumber, EDecimal ) );
updated = AddToneNumbersL( myLeftNumber, myRightNumber );
return updated;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::AddToneNumbersL
// -----------------------------------------------------------------------------
//
TBool CMccCodecDTMF::AddToneNumbersL( TUint aLeftNumber, TUint aRightNumber )
{
__INTERFACE( "CMccCodecDTMF::AddToneNumbersL" )
__ASSERT_ALWAYS ( aLeftNumber < aRightNumber, User::Leave(KErrArgument) );
TBool updated = EFalse;
TInt i = aLeftNumber > 0 ? aLeftNumber : 0;
// if is DTMF tone, save DTMF tone numbers(0-15) to iBitrateMask
for ( ;i <= (TInt) aRightNumber && i <= 15; i++ )
{
updated = AddAllowedBit( i );
}
return updated;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::GetAllowedToneNumbersArrayL
// -----------------------------------------------------------------------------
//
void CMccCodecDTMF::GetAllowedToneNumbersArrayL( RArray<TUint>& aToneNumbers )
{
__INTERFACE( "CMccCodecDTMF::GetAllowedToneNumbersArray" )
if ( iBitrateMask & KMccAllowedDtmfNumber0 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber0 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber1 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber1 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber2 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber2 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber3 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber3 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber4 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber4 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber5 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber5 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber6 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber6 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber7 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber7 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber8 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber8 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber9 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber9 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber10 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber10 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber11 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber11 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber12 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber12 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber13 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber13 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber14 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber14 );
}
if ( iBitrateMask & KMccAllowedDtmfNumber15 )
{
aToneNumbers.InsertInOrderL( KDtmfNumber15 );
}
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::CreateFmtpAttrListL
// -----------------------------------------------------------------------------
//
void CMccCodecDTMF::CreateFmtpAttrListL( const RArray<TUint>& aToneNumbers )
{
__INTERFACE( "CMccCodecDTMF::CreateFmtpAttrListL" )
delete iFmtpAttr;
iFmtpAttr = NULL;
iFmtpAttr = HBufC8::NewL( KMaxFmtpAttrLength );
// if aToneNumbers contain e.g 2,3,4,5,7,9,10,11,12,13
// it will append to iFmtpAttr like "1-5,7,9-13"
TUint firstPos = 0;
TUint nextpos = 0;
while ( (TInt) nextpos < aToneNumbers.Count() )
{
FindContinuusIntegers( aToneNumbers, nextpos );
if ( firstPos == nextpos )
{
iFmtpAttr->Des().AppendNum( aToneNumbers[ nextpos ] );
}
else if ( firstPos < nextpos )
{
iFmtpAttr->Des().AppendNum( aToneNumbers[ firstPos ] );
iFmtpAttr->Des().Append( KCharHyphen );
iFmtpAttr->Des().AppendNum( aToneNumbers[ nextpos ] );
}
if ( nextpos != aToneNumbers.Count() - 1 )
{
iFmtpAttr->Des().Append( KCharComma );
}
++nextpos;
firstPos = nextpos;
}
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::AddAllowedBit
// -----------------------------------------------------------------------------
//
TBool CMccCodecDTMF::AddAllowedBit( TUint aBit )
{
__INTERFACE( "CMccCodecDTMF::AddAllowedBit" )
TBool updated = EFalse;
switch ( aBit )
{
case KDtmfNumber0:
{
iBitrateMask |= KMccAllowedDtmfNumber0;
updated = ETrue;
break;
}
case KDtmfNumber1:
{
iBitrateMask |= KMccAllowedDtmfNumber1;
updated = ETrue;
break;
}
case KDtmfNumber2:
{
iBitrateMask |= KMccAllowedDtmfNumber2;
updated = ETrue;
break;
}
case KDtmfNumber3:
{
iBitrateMask |= KMccAllowedDtmfNumber3;
updated = ETrue;
break;
}
case KDtmfNumber4:
{
iBitrateMask |= KMccAllowedDtmfNumber4;
updated = ETrue;
break;
}
case KDtmfNumber5:
{
iBitrateMask |= KMccAllowedDtmfNumber5;
updated = ETrue;
break;
}
case KDtmfNumber6:
{
iBitrateMask |= KMccAllowedDtmfNumber6;
updated = ETrue;
break;
}
case KDtmfNumber7:
{
iBitrateMask |= KMccAllowedDtmfNumber7;
updated = ETrue;
break;
}
case KDtmfNumber8:
{
iBitrateMask |= KMccAllowedDtmfNumber8;
updated = ETrue;
break;
}
case KDtmfNumber9:
{
iBitrateMask |= KMccAllowedDtmfNumber9;
updated = ETrue;
break;
}
case KDtmfNumber10:
{
iBitrateMask |= KMccAllowedDtmfNumber10;
updated = ETrue;
break;
}
case KDtmfNumber11:
{
iBitrateMask |= KMccAllowedDtmfNumber11;
updated = ETrue;
break;
}
case KDtmfNumber12:
{
iBitrateMask |= KMccAllowedDtmfNumber12;
updated = ETrue;
break;
}
case KDtmfNumber13:
{
iBitrateMask |= KMccAllowedDtmfNumber13;
updated = ETrue;
break;
}
case KDtmfNumber14:
{
iBitrateMask |= KMccAllowedDtmfNumber14;
updated = ETrue;
break;
}
case KDtmfNumber15:
{
iBitrateMask |= KMccAllowedDtmfNumber15;
updated = ETrue;
break;
}
default:
{
updated = EFalse;
break;
}
}
return updated;
}
// -----------------------------------------------------------------------------
// CMccCodecDTMF::FindContinuusIntegers
// -----------------------------------------------------------------------------
//
void CMccCodecDTMF::FindContinuusIntegers( const RArray<TUint>& aToneNumbers,
TUint& aPosition )
{
TBool found = EFalse;
for ( TInt i=aPosition+1; i < aToneNumbers.Count() && !found; i++ )
{
if ( aToneNumbers[i-1] + 1 != aToneNumbers[i] )
{
aPosition = i-1;
found = ETrue;
}
if ( !found && i == ( aToneNumbers.Count() - 1 ) )
{
aPosition = i;
}
}
}
// ========================== OTHER EXPORTED FUNCTIONS =========================
// End of File