/*
* Copyright (c) 2007 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: Key event forwarder.
*
*/
// INCLUDE FILES
#include <eikenv.h>
#include <eikappui.h>
#include <bldvariant.hrh>
#include <featmgr.h>
#include <PtiDefs.h>
#include <AknUtils.h>
#include "mphonestatemachine.h"
#include "mphonekeyeventhandler.h"
#include "cphonekeys.h"
#include "cphonekeyeventforwarder.h"
#include "cphonepubsubproxy.h"
#include "cphonetimer.h"
#include "phonelogger.h"
#include "phoneui.pan"
#include "mphoneviewcommandhandle.h"
#include "cphoneqwertyhandler.h"
#include "tphonecmdparampointer.h"
#include "mphoneqwertymodeobserver.h"
#include "cdialer.h"
// CONSTANTS
//Avkon P&S keys
const TUid KCRUidAvkon = { 0x101F876E };
const TUint32 KAknKeyBoardLayout = 0x0000000B;
// Characters resulting from multitapping *-key.
_LIT( KAsteriskMultitapCharacters, "*+pw" );
// Multitap delay parameter in micro seconds.
const TInt KMultitapDelay = 1000000;
// ============================ MEMBER FUNCTIONS ===============================
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::NewL
// -----------------------------------------------------------------------------
//
CPhoneKeyEventForwarder* CPhoneKeyEventForwarder::NewL(
const TRect& aRect,
MPhoneStateMachine* aStateMachine,
MPhoneViewCommandHandle* aViewCommandHandle )
{
CPhoneKeyEventForwarder* self =
new (ELeave) CPhoneKeyEventForwarder( aStateMachine, aViewCommandHandle );
CleanupStack::PushL( self );
self->ConstructL( aRect );
CleanupStack::Pop( self );
return self;
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::~CPhoneKeyEventForwarder
// -----------------------------------------------------------------------------
//
CPhoneKeyEventForwarder::~CPhoneKeyEventForwarder()
{
__LOGMETHODSTARTEND( EPhoneControl, "CPhoneKeyEventForwarder::~CPhoneKeyEventForwarder");
if ( AknLayoutUtils::PenEnabled() )
{
iPeninputServer.RemovePenUiActivationHandler( this );
}
iPeninputServer.Close();
if ( iEikonEnv )
{
iEikonEnv->EikAppUi()->RemoveFromStack( this );
}
delete iLongPressKeyEventTimer;
delete iQwertyHandler;
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::CountComponentControls
// -----------------------------------------------------------------------------
//
TInt CPhoneKeyEventForwarder::CountComponentControls() const
{
__LOGMETHODSTARTEND( EPhoneControl, "CPhoneKeyEventForwarder::CountComponentControls");
return 0;
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::ComponentControl
// -----------------------------------------------------------------------------
//
CCoeControl* CPhoneKeyEventForwarder::ComponentControl(
TInt /*aIndex*/ ) const
{
__LOGMETHODSTARTEND( EPhoneControl, "CPhoneKeyEventForwarder::ComponentControl");
return NULL;
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::SizeChanged
// -----------------------------------------------------------------------------
//
void CPhoneKeyEventForwarder::SizeChanged()
{
__LOGMETHODSTARTEND( EPhoneControl, "CPhoneKeyEventForwarder::SizeChanged");
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::Draw
// -----------------------------------------------------------------------------
//
void CPhoneKeyEventForwarder::Draw(
const TRect& /*aRect*/ ) const
{
__LOGMETHODSTARTEND( EPhoneControl, "CPhoneKeyEventForwarder::Draw");
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::OfferKeyEventL
// Checks is hte keyevent such that the number entry can be opened
// -----------------------------------------------------------------------------
//
TKeyResponse CPhoneKeyEventForwarder::OfferKeyEventL(
const TKeyEvent& aKeyEvent,
TEventCode aType )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::OfferKeyEventL");
TKeyResponse ret( EKeyWasNotConsumed );
// After event key, expect to have key up event.
iExpectKeyUpEvent = ( aType == EEventKey );
ret = OfferKeyEventBeforeControlStackL( aKeyEvent, aType );
if ( !aKeyEvent.iRepeats )
{
// Convert event. Use already converted iKeyPressedDown.
TKeyEvent keyEvent = aKeyEvent;
keyEvent.iCode = iKeyPressedDown;
// Do not handle dtmf tone if the type is EEventKey but we are not
// expecting key up event. This happens if the key up event has been
// handled by some CActiveSchedulerWait object somewhere in the execution
// of function OfferKeyEventBeforeControlStackL.
if ( iExpectKeyUpEvent || aType != EEventKey )
{
// Start and stop dtmf
iStateMachine->State()->HandleDtmfKeyToneL( keyEvent, aType );
}
// Open number entry view if any allowed character key
// is pressed on homescreen or in-call ui
if ( aType != EEventKeyUp && IsKeyAllowed( keyEvent ) )
{
// Do not open number entry with up key
iStateMachine->State()->HandleCreateNumberEntryL( keyEvent, aType );
}
}
return ret;
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::CPhoneKeyEventForwarder
// -----------------------------------------------------------------------------
//
CPhoneKeyEventForwarder::CPhoneKeyEventForwarder(
MPhoneStateMachine* aStateMachine,
MPhoneViewCommandHandle* aViewCommandHandle )
: iStateMachine( aStateMachine ),
iViewCommandHandle( aViewCommandHandle )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::CPhoneKeyEventForwarder");
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::ConstructL
// -----------------------------------------------------------------------------
//
void CPhoneKeyEventForwarder::ConstructL( const TRect& aRect )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::ConstructL");
if ( FeatureManager::FeatureSupported( KFeatureIdKeypadNoSlider ) )
{
RWindowGroup& groupWin = iCoeEnv->RootWin();
}
// Create invisible control.
CreateWindowL();
MakeVisible( EFalse );
SetRect( aRect );
if ( iEikonEnv )
{
iEikonEnv->EikAppUi()->AddToStackL(
this,
ECoeStackPriorityEnvironmentFilter,
ECoeStackFlagRefusesFocus );
}
// Create the long press key event timer
iLongPressKeyEventTimer = CPhoneTimer::NewL();
// Create qwerty mode handler
iQwertyHandler = CPhoneQwertyHandler::NewL();
TPhoneCmdParamPointer ptrParam;
iViewCommandHandle->ExecuteCommand( EPhoneViewGetQwertyModeObserver, &ptrParam );
CDialer* qwertyObserver =
static_cast<CDialer*>( ptrParam.Pointer() );
iQwertyHandler->AddQwertyModeObserverL( *qwertyObserver );
if ( AknLayoutUtils::PenEnabled() )
{
User::LeaveIfError( iPeninputServer.Connect() );
iPeninputServer.AddPenUiActivationHandler( this, EPluginInputModeAll );
iVirtualKeyBoardOpen = iPeninputServer.IsVisible();
}
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::IsAlphaNumericKey
// -----------------------------------------------------------------------------
//
TBool CPhoneKeyEventForwarder::IsKeyAllowed( const TKeyEvent& aKeyEvent )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::IsAlphaNumericKey");
TKeyEvent keyEvent( aKeyEvent );
// Check keyboard mode
TBool isModeNumeric = iViewCommandHandle->HandleCommandL(
EPhoneViewIsNumberEntryNumericMode ) == EPhoneViewResponseSuccess;
// Check if key is a numeric key
TBool isNumeric = CPhoneKeys::IsNumericKey( keyEvent, EEventKey );
// Check if key is alpha numeric key and alphabet input is allowed
TBool isAllowedAlphaNumeric =
iStateMachine->State()->IsAlphanumericSupportedAndCharInput( keyEvent );
return ( ( isModeNumeric && isNumeric ) ||
( !isModeNumeric && isAllowedAlphaNumeric ) );
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::ConvertHalfQwertySpecialChar
// -----------------------------------------------------------------------------
//
TBool CPhoneKeyEventForwarder::ConvertHalfQwertySpecialChar( TUint& aCode,
const TKeyEvent& aKeyEvent )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::ConvertHalfQwertySpecialChar");
TBool ret( EFalse );
TInt keyboard( CPhonePubSubProxy::Instance()->Value(
KCRUidAvkon,
KAknKeyBoardLayout ) );
if ( keyboard == EPtiKeyboardHalfQwerty )
{
switch ( aKeyEvent.iScanCode )
{
case EStdKeyLeftShift:
ret = ETrue;
aCode = KPhoneDtmfHashCharacter;
break;
case EStdKeyLeftFunc:
ret = ETrue;
aCode = KPhoneDtmfStarCharacter;
break;
case EStdKeySpace:
ret = ETrue;
aCode = KPhoneDtmf0Character;
break;
default:
break;
}
}
__PHONELOG1( EBasic, EPhoneControl,
"CPhoneKeyEventForwarder::ConvertHalfQwertySpecialChar =%d ",
ret );
return ret;
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::IsKeySimulatedByTouchDialer
//
// -----------------------------------------------------------------------------
//
TBool CPhoneKeyEventForwarder::IsKeySimulatedByTouchDialer(
const TKeyEvent& aKeyEvent ) const
{
return ( ( aKeyEvent.iModifiers & EModifierNumLock ) &&
( aKeyEvent.iModifiers & EModifierKeypad ) );
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::HandleTouchDialerKeyEventL
// Handle EEventKey type of event from touch dialer
// -----------------------------------------------------------------------------
//
void CPhoneKeyEventForwarder::HandleTouchDialerKeyEventL( const TKeyEvent& aKeyEvent )
{
TBool multitap = aKeyEvent.iScanCode == EStdKeyNkpAsterisk &&
iPreviousScanCode == EStdKeyNkpAsterisk &&
iKeyPressTime.MicroSecondsFrom( iPreviousKeyPressTime ) < KMultitapDelay;
if ( multitap )
{
// Update multitap index
iMultitapIndex = ( iMultitapIndex + 1 ) % KAsteriskMultitapCharacters().Length();
// Delete the previously entered character by simulating a backspace character.
TKeyEvent backSpaceEvent;
backSpaceEvent.iModifiers = 0;
backSpaceEvent.iRepeats = 0;
backSpaceEvent.iCode = EKeyBackspace;
backSpaceEvent.iScanCode = EStdKeyBackspace;
iStateMachine->State()->HandleKeyEventL( backSpaceEvent, EEventKey );
TKeyEvent keyEvent( aKeyEvent );
// Modify the key event to contain the next character on multitap list.
keyEvent.iCode = ( TInt ) KAsteriskMultitapCharacters()[ iMultitapIndex ];
// Send character to number entry.
iStateMachine->State()->HandleKeyEventL( keyEvent, EEventKey );
}
else
{
iMultitapIndex = 0;
iStateMachine->State()->HandleKeyEventL( aKeyEvent, EEventKey );
}
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::OfferKeyEventBeforeControlStackL
// Let phone handle before other components in control stack
// -----------------------------------------------------------------------------
//
TKeyResponse CPhoneKeyEventForwarder::OfferKeyEventBeforeControlStackL(
const TKeyEvent& aKeyEvent,
TEventCode aType )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::OfferKeyEventBeforeControlStackL");
TKeyResponse response( EKeyWasNotConsumed );
// Handle key events before FEP
// This is must becouse FEP consumes * key and when
// editor is in alphanumeric mode FEP consumes all alphanumeric
// keys
switch( aType )
{
// EEventKeyDown
case EEventKeyDown:
response = HandleEventKeyDownBeforeControlStackL( aKeyEvent );
break;
// EEventKey
case EEventKey:
response = HandleEventKeyBeforeControlStackL( aKeyEvent );
break;
// EEventKeyUp
case EEventKeyUp:
response = HandleEventKeyUpBeforeControlStackL( aKeyEvent );
break;
default:
break;
}
return response;
}
// -----------------------------------------------------------------------------
// CPhoneKeyEventForwarder::OfferKeyEventAfterControlStackL
// Let phone handle keys if no one has done it already
// -----------------------------------------------------------------------------
//
TKeyResponse CPhoneKeyEventForwarder::OfferKeyEventAfterControlStackL(
const TKeyEvent& aKeyEvent,
TEventCode aType )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::OfferKeyEventAfterControlStackL");
// Send key to editor
iStateMachine->State()->HandleKeyEventL( aKeyEvent, aType );
if ( EEventKeyUp == aType && EKeyNull != iKeyPressedDown )
{
// Handle short key press
iStateMachine->State()->HandleKeyMessageL(
MPhoneKeyEvents::EPhoneKeyShortPress,
TKeyCode( iKeyPressedDown ) );
// Reset key code
iScanCode = EStdKeyNull;
iKeyPressedDown = EKeyNull;
}
return EKeyWasNotConsumed;
}
// ---------------------------------------------------------------------------
// CPhoneKeyEventForwarder::OnPeninputUiDeactivated
//
// Gets called when the virtual keyboard editor is closed.
// ---------------------------------------------------------------------------
//
void CPhoneKeyEventForwarder::OnPeninputUiDeactivated()
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::OnPeninputUiDeactivated");
iVirtualKeyBoardOpen = EFalse;
}
// ---------------------------------------------------------------------------
// CPhoneKeyEventForwarder::OnPeninputUiActivated
//
// Gets called when the virtual keyboard editor is opened.
// ---------------------------------------------------------------------------
//
void CPhoneKeyEventForwarder::OnPeninputUiActivated()
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::OnPeninputUiActivated");
iVirtualKeyBoardOpen = ETrue;
}
// -----------------------------------------------------------
// CPhoneKeyEventForwarder::HandleEventKeyDownBeforeControlStackL
// -----------------------------------------------------------
//
TKeyResponse CPhoneKeyEventForwarder::HandleEventKeyDownBeforeControlStackL(
const TKeyEvent& aKeyEvent )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::HandleEventKeyDownBeforeControlStackL");
// Convert key code
ConvertKeyCode( iKeyPressedDown, aKeyEvent );
// Save key scan code
iScanCode = aKeyEvent.iScanCode;
// Store the previous keypress time.
iPreviousKeyPressTime = iKeyPressTime;
// Start the key press timer
iKeyPressTime.UniversalTime();
// Cancel the long press key event timer, if it is active
if ( iLongPressKeyEventTimer->IsActive() )
{
iLongPressKeyEventTimer->CancelTimer();
}
// Don't initiate long tap timer if all these are true
// a) key event is not from virtual dialer
// b) device is in qwerty mode
// c) phone number editor is alpha mode, i.e. not in numeric mode
// This is to prevent phone app's long tap functionality with qwerty
// long presses, and to have the normal editor long press behaviour
// instead.
TBool preventLongTap =
!IsKeySimulatedByTouchDialer( aKeyEvent ) &&
iQwertyHandler->IsQwertyInput() &&
iViewCommandHandle->HandleCommandL( EPhoneViewIsNumberEntryNumericMode ) != EPhoneViewResponseSuccess;
// Prevent long tap functionality for key events coming from virtual touch keyboard.
// Virtual touch keyboard has own editing functionality for long presses, and telephony
// should not add conflicting behaviour on top of that.
preventLongTap = preventLongTap || iVirtualKeyBoardOpen;
if ( !preventLongTap )
{
// Start long press timer
iLongPressKeyEventTimer->After(
KPhoneLongPressKeyEventDuration,
TCallBack( DoHandleLongPressKeyEventCallbackL,
this ) );
}
return ( EKeyWasNotConsumed );
}
// -----------------------------------------------------------
// CPhoneKeyEventForwarder::HandleEventKeyBeforeControlStackL
// Both short key press event (iRepeats == 0) and
// long key press event (iRepeats == 1) are handled here
// -----------------------------------------------------------
//
TKeyResponse CPhoneKeyEventForwarder::HandleEventKeyBeforeControlStackL(
const TKeyEvent& aKeyEvent )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::HandleEventKeyBeforeControlStackL");
TKeyResponse response( EKeyWasNotConsumed );
TKeyEvent keyEvent( aKeyEvent );
// Special handling for virtual dialer keys events
const TBool simulatedByDialer = IsKeySimulatedByTouchDialer( keyEvent );
if ( simulatedByDialer )
{
// feed the event directly to number entry
HandleTouchDialerKeyEventL( keyEvent );
response = EKeyWasConsumed;
}
else
{
// If not simulated by dialer, multitap related fields are reset.
// Any key event not originating from dialer interrupts multitap
// behaviour.
iMultitapIndex = 0;
iPreviousScanCode = 0;
}
// Special handling for QWERTY numeric mode key events
if ( response == EKeyWasNotConsumed )
{
// FEP treats numeric QWERTY mode of Phone editor as a special case where most
// key events flow through directly to the Phone app (but some don't).
// To ensure consistent handling of numeric mode keys and QWERTY modifiers,
// handle those keys manually before FEP has a chance to mess things up.
TBool numericMode = iViewCommandHandle->HandleCommandL(
EPhoneViewIsNumberEntryNumericMode ) == EPhoneViewResponseSuccess;
if ( iQwertyHandler->IsQwertyInput() && numericMode )
{
iQwertyHandler->ConvertToNumeric( keyEvent );
// Send key to editor unless this is a repeat event for dtmf character
if ( aKeyEvent.iRepeats == 0 ||
!CPhoneKeys::IsDtmfTone( keyEvent, EEventKey ) )
{
iStateMachine->State()->HandleKeyEventL( keyEvent, EEventKey );
}
response = EKeyWasConsumed;
}
}
return response;
}
// -----------------------------------------------------------
// CPhoneKeyEventForwarder::HandleEventKeyUpBeforeControlStackL
// -----------------------------------------------------------
//
TKeyResponse CPhoneKeyEventForwarder::HandleEventKeyUpBeforeControlStackL(
const TKeyEvent& aKeyEvent )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::HandleEventKeyUpBeforeControlStackL");
// Send a long press key event to the current state provided
// that the key scan code is the same as the key that was pressed
if ( iScanCode == aKeyEvent.iScanCode )
{
// Pass the key press duration to the current state
TTime now;
now.UniversalTime();
TTimeIntervalMicroSeconds keyPressDuration = now.MicroSecondsFrom(
iKeyPressTime );
iStateMachine->State()->HandleKeyPressDurationL(
TKeyCode( iKeyPressedDown ),
keyPressDuration );
// Cancel the long press timer, if it is active. Otherwise
// ignore the key event since it was already handled as a long press
// key event.
if ( iLongPressKeyEventTimer->IsActive() )
{
iLongPressKeyEventTimer->CancelTimer();
}
}
// Store the previous scan code
iPreviousScanCode = iScanCode;
return EKeyWasNotConsumed;
}
// ---------------------------------------------------------
// CPhoneKeyEventForwarder::DoHandleLongPressKeyEventCallback
//
// This routine is called when the long press key event timer expires
// after KPhoneLongPressKeyEventDuration.
// ---------------------------------------------------------
//
TInt CPhoneKeyEventForwarder::DoHandleLongPressKeyEventCallbackL( TAny* aAny )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::DoHandleLongPressKeyEventCallbackL");
__ASSERT_DEBUG( aAny,
Panic( EPhoneCtrlUnknownPanic ) );
reinterpret_cast< CPhoneKeyEventForwarder* >( aAny )->
HandleLongPressKeyEventL();
return KErrNone;
}
// ---------------------------------------------------------
// CPhoneKeyEventForwarder::HandleLongPressKeyEventL
// Handle long press key event
// ---------------------------------------------------------
//
void CPhoneKeyEventForwarder::HandleLongPressKeyEventL()
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::HandleLongPressKeyEventL");
// In alphanumeric mode EEventKey-event is not received so we must
// compare also with scan code.
if ( KPhoneDtmfHashCharacter == iKeyPressedDown )
{
// Separate handling for long hash key because there is so much
// different functionality under it and it works differently
// in different protocols.
iStateMachine->State()->HandleLongHashL();
}
else if ( KPhoneDtmfStarCharacter == iKeyPressedDown )
{
// KPhoneDtmfStarCharacter value used in configuration file for
// long key press application launching
iStateMachine->State()->HandleKeyMessageL(
MPhoneKeyEvents::EPhoneKeyLongPress,
TKeyCode( KPhoneDtmfStarCharacter ) );
}
else
{
__PHONELOG1(
EBasic, EPhoneControl,
"CPhoneKeyEventHandler::HandleLongPressKeyEventL iCode(%d)",
iKeyPressedDown );
iStateMachine->State()->HandleKeyMessageL(
MPhoneKeyEvents::EPhoneKeyLongPress,
TKeyCode( iKeyPressedDown ) );
}
// Reset key code
iScanCode = EStdKeyNull;
iKeyPressedDown = EKeyNull;
}
// -----------------------------------------------------------
// CPhoneKeyEventForwarder::ConvertKeyCode
// -----------------------------------------------------------
//
void CPhoneKeyEventForwarder::ConvertKeyCode( TUint& aCode,
const TKeyEvent& aKeyEvent )
{
__LOGMETHODSTARTEND( EPhoneControl,
"CPhoneKeyEventForwarder::ConvertKeyCode");
// Handler for special device key mapping in case iScanCode
// to iCode conversion hasn't been handled by CAknAppUi::GetAliasKeyCodeL
__PHONELOG1( EBasic, EPhoneControl,
"CPhoneKeyEventHandler::ConvertKeyCode scan code (%d)",
aKeyEvent.iScanCode );
if ( !ConvertHalfQwertySpecialChar( aCode, aKeyEvent ) )
{
TBool numMode = iViewCommandHandle->HandleCommandL(
EPhoneViewIsNumberEntryNumericMode ) == EPhoneViewResponseSuccess;
TBool simulatedByDialer = IsKeySimulatedByTouchDialer( aKeyEvent );
if ( iQwertyHandler->IsQwertyInput() && numMode && !simulatedByDialer )
{
TUint numCode = iQwertyHandler->NumericKeyCode( aKeyEvent );
if ( numCode )
{
aCode = numCode;
}
else
{
aCode = aKeyEvent.iScanCode;
}
}
else
{
switch ( aKeyEvent.iScanCode )
{
case EStdKeyEnter:
case EStdKeyNkpEnter:
aCode = EKeyEnter;
break;
case EStdKeyYes:
aCode = EKeyYes;
break;
case EStdKeyNo:
aCode = EKeyNo;
break;
case EStdKeyDeviceF:
aCode = EKeyDeviceF; // EStdKeyDeviceF mapping for unlock switch.
break;
case EStdKeyHash:
aCode = KPhoneDtmfHashCharacter;
break;
case EStdKeyNkpAsterisk:
aCode = KPhoneDtmfStarCharacter;
break;
case EStdKeyApplication0:
aCode = EKeyApplication0;
break;
default:
aCode = aKeyEvent.iScanCode; // Use default code
break;
}
}
}
__PHONELOG1( EBasic, EPhoneControl,
"CPhoneKeyEventHandler::ConvertKeyCode aCode (%d)", aCode );
}
// End of File