/*
* 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: Container for standby mode*
*/
// INCLUDE FILES
#include <aknview.h>
#include <eiklabel.h>
#include <StringLoader.h>
#include <AknsFrameBackgroundControlContext.h>
#include <AknsDrawUtils.h>
#include <AknBidiTextUtils.h>
#include <textresolver.h>
#include "CamStandbyContainer.h"
#include "CamTimer.h"
#include "Cam.hrh"
#include "CamUtility.h"
#include "CamAppUi.h"
#include "CamViewBase.h"
#include "CamPanic.h"
#include <cameraapp.rsg>
#include <vgacamsettings.rsg>
#include <ctsydomainpskeys.h>
// CONSTANTS
const TInt KForegroundDelayTimeout = 500;
// ================= MEMBER FUNCTIONS =======================
// ---------------------------------------------------------------------------
// CCamStandbyContainer::NewL
// Symbian OS two-phased constructor
// ---------------------------------------------------------------------------
//
CCamStandbyContainer* CCamStandbyContainer::NewL( const TRect& aRect, CAknView& aView,
CCamAppController& aController,
TInt aError )
{
CCamStandbyContainer* self =
new( ELeave ) CCamStandbyContainer( aController, aView, aError );
CleanupStack::PushL( self );
self->ConstructL( aRect, aError );
CleanupStack::Pop( self );
return self;
}
// ---------------------------------------------------------------------------
// CCamStandbyContainer::~CCamStandbyContainer
// Destructor
// ---------------------------------------------------------------------------
//
CCamStandbyContainer::~CCamStandbyContainer()
{
PRINT( _L("Camera => ~CCamStandbyContainer"))
if( iForegroundTimer )
{
iForegroundTimer->Cancel();
delete iForegroundTimer;
}
delete iText;
delete iWrappedLabelText;
PRINT( _L("Camera => ~CCamStandbyContainer") );
}
// ---------------------------------------------------------
// CCamStandbyContainer::ConstructL
// Symbian OS 2nd phase constructor
// ---------------------------------------------------------
//
void CCamStandbyContainer::ConstructL( const TRect& aRect, TInt aError )
{
PRINT( _L("Camera => CCamStandbyContainer::ConstructL"))
CCamContainerBase::BaseConstructL( aRect );
iText = new ( ELeave ) CEikLabel;
iText->SetContainerWindowL( *this );
iText->SetAlignment( EHCenterVCenter );
iText->SetExtent( TPoint( 0, 0 ), aRect.Size() );
// tell the CEikLabel that it should not do the visual
// conversion (Arabic right to left) because the app
// will do it via
// AknBidiTextUtils::ConvertToVisualAndWrapToStringL
iText->UseLogicalToVisualConversion( EFalse );
SetStandbyErrorL( aError );
// Initialise foreground timer - used to delay the exit
// from standby when foreground is gained
iForegroundTimer = CCamTimer::NewL( KForegroundDelayTimeout,
TCallBack( CCamStandbyContainer::ForegroundTimeout, this ) );
// Make sure fixed toolbar is on top of this window
DrawableWindow()->SetOrdinalPosition( KCamPreCaptureWindowOrdinalPos );
}
// ---------------------------------------------------------------------------
// CCamStandbyContainer::CCamStandbyContainer
// C++ constructor
// ---------------------------------------------------------------------------
//
CCamStandbyContainer::CCamStandbyContainer( CCamAppController& aController,
CAknView& aView, TInt aError )
: CCamContainerBase( aController, aView ), iStandbyError( aError )
{
}
// ---------------------------------------------------------
// CCamStandbyContainer::CountComponentControls
// Returns the number of controls owned
// ---------------------------------------------------------
//
TInt CCamStandbyContainer::CountComponentControls() const
{
TInt count = 1;
return count; // Return the number of controls inside this container
}
// ---------------------------------------------------------
// CCamStandbyContainer::ComponentControl
// Return pointer to a contained control
// ---------------------------------------------------------
//
CCoeControl* CCamStandbyContainer::ComponentControl( TInt aIndex ) const
{
switch ( aIndex )
{
case 0:
{
return iText;
}
default:
{
return NULL;
}
}
}
// ---------------------------------------------------------
// CCamStandbyContainer::Draw
// Draw control
// ---------------------------------------------------------
//
void CCamStandbyContainer::Draw( const TRect& /*aRect*/ ) const
{
PRINT( _L("Camera => CCamStandbyContainer::Draw"))
CWindowGc& gc = SystemGc();
MAknsSkinInstance* skin = AknsUtils::SkinInstance();
AknsDrawUtils::Background( skin, iBgContext, gc, Rect() );
// override the label color
TRgb color;
AknsUtils::GetCachedColor( skin, color, KAknsIIDQsnTextColors,
EAknsCIQsnTextColorsCG6 );
TRAPD( ignore, AknLayoutUtils::OverrideControlColorL( *iText,
EColorLabelText, color ) );
if ( ignore )
{
// Do nothing ( removes build warning )
}
}
// ----------------------------------------------------------------
// CCamStandbyContainer::OfferKeyEventL
// Handles this application view's command keys
// ----------------------------------------------------------------
//
TKeyResponse CCamStandbyContainer::OfferKeyEventL(
const TKeyEvent& aKeyEvent,
TEventCode aType )
{
if ( iStandbyError != KErrNone )
{
return EKeyWasConsumed;
}
// if the select (OK) key is pressed
if ( ( aType == EEventKey && aKeyEvent.iCode == EKeyOK )
// if shutter key is pressed in main camera
|| ( aType == EEventKey &&
( aKeyEvent.iScanCode == iPrimaryCameraCaptureKeys[0] ||
CCamContainerBase::IsShutterKeyL(aKeyEvent, aType) ) &&
!static_cast<CCamAppUi*>( iEikonEnv->AppUi() )->IsSecondCameraEnabled() )
|| ( IsCaptureKeyL(aKeyEvent, aType)) )
{
// in case we receive an enter key or MSK key event in standby mode
// we should not call HandleCommandL function with ECamCmdExitStandby
// because by default application will get a left softkey command id
// when MSK is pressed. In standby mode left softkey command id is
// ECamCmdExitStandby
if ( !( ( aType == EEventKey ||
aType == EEventKeyDown ||
aType == EEventKeyUp ) &&
( aKeyEvent.iScanCode == EStdKeyDevice3 ||
aKeyEvent.iScanCode == EStdKeyEnter ) ) )
{
iView.HandleCommandL( ECamCmdExitStandby );
}
return EKeyWasConsumed;
}
// handle navi-key up/down, left/right
else if ( aType == EEventKey &&
( aKeyEvent.iScanCode == EStdKeyDownArrow ||
aKeyEvent.iScanCode == EStdKeyUpArrow ||
aKeyEvent.iScanCode == EStdKeyLeftArrow ||
aKeyEvent.iScanCode == EStdKeyRightArrow ) )
{
iView.HandleCommandL( ECamCmdExitStandby );
return EKeyWasConsumed;
}
else if ( ( aType == EEventKeyDown || aType == EEventKeyUp ) &&
( aKeyEvent.iScanCode != EStdKeyYes ) )
{
if ( aType == EEventKeyDown )
{
if( IsZoomKeyL(aKeyEvent, aType ) )
{
iView.HandleCommandL( ECamCmdExitStandby );
}
}
// consume key up/down presses
return EKeyWasConsumed;
}
else
{
return CCamContainerBase::OfferKeyEventL( aKeyEvent, aType );
}
}
// ----------------------------------------------------------------
// CCamStandbyContainer::HandleForegroundEvent
// Handle foreground event
// ----------------------------------------------------------------
//
void CCamStandbyContainer::HandleForegroundEventL( TBool aForeground )
{
CCamAppUi* appUi = static_cast<CCamAppUi*>( iEikonEnv->AppUi());
if( appUi && !appUi->IsRecoverableStatus() )
{
return;
}
if ( aForeground )
{
// start timer to delay exit from standby
if ( !iForegroundTimer->IsActive() )
{
iForegroundTimer->StartTimer();
}
}
else
{
// set text label as blank
//TRAP_IGNORE( iText->SetTextL( KNullDesC ) );
// cancel timer if active
if ( iForegroundTimer->IsActive() )
{
iForegroundTimer->Cancel();
}
}
}
// ----------------------------------------------------------------
// CCamStandbyContainer::GetStandbyError
// Returns the current error
// ----------------------------------------------------------------
//
TInt CCamStandbyContainer::GetStandbyError() const
{
return iStandbyError;
}
// ----------------------------------------------------------------
// CCamStandbyContainer::ForegroundTimeout
// static callback function for foreground gain timeout
// ----------------------------------------------------------------
//
TInt CCamStandbyContainer::ForegroundTimeout( TAny *aPtr )
{
return static_cast<CCamStandbyContainer*>( aPtr )->DoForegroundTimeout();
}
// ----------------------------------------------------------------
// CCamStandbyContainer::DoForegroundTimeout
// Implementation function for foreground gain timeout
// ----------------------------------------------------------------
//
TInt CCamStandbyContainer::DoForegroundTimeout()
{
TRAPD( ignore, iView.HandleCommandL( ECamCmdExitStandby ) );
if ( ignore )
{
// Do nothing ( removes build warning )
}
return EFalse;
}
// ----------------------------------------------------------------
// CCamStandbyContainer::HandlePointerEventL
// ----------------------------------------------------------------
//
void CCamStandbyContainer::HandlePointerEventL( const TPointerEvent& aPointerEvent )
{
RDebug::Print(_L("CCamStandbyContainer::HandlePointerEventL iType=%d iPosition=(%d, %d)"),
aPointerEvent.iType,
aPointerEvent.iPosition.iX,
aPointerEvent.iPosition.iY );
CCamAppUi* appUi = static_cast<CCamAppUi*>( iEikonEnv->AppUi());
if(appUi && !appUi->IsRecoverableStatus())
return;
TInt callType( EPSCTsyCallTypeUninitialized );
RProperty::Get( KPSUidCtsyCallInformation, KCTsyCallType, callType );
if ( callType != EPSCTsyCallTypeH324Multimedia)
{
static_cast<CCamViewBase&>( iView ).HandleCommandAoL( ECamCmdExitStandby );
}
else
{
}
}
// -----------------------------------------------------------------------------
// CCamStandbyContainer::CreateBackgroundContextL
// -----------------------------------------------------------------------------
//
void CCamStandbyContainer::CreateBackgroundContextL()
{
iBgContext = CAknsBasicBackgroundControlContext::NewL(
KAknsIIDQsnBgAreaMain, Rect(), EFalse );
}
void CCamStandbyContainer::SetStandbyErrorL( TInt aError )
{
iStandbyError = aError;
__ASSERT_DEBUG( iText, CamPanic( ECamPanicNullPointer ) );
HBufC* labelText;
if ( static_cast<CCamAppUi*>( iEikonEnv->AppUi() )->IsConstructionComplete() )
{
switch( aError )
{
case KErrNone:
labelText = StringLoader::LoadLC( R_CAM_STANDBY_TEXT );
break;
case KErrInUse:
labelText = StringLoader::LoadLC( R_CAM_STANDBY_CAMERA_IN_USE_TEXT );
break;
case KErrNoMemory:
labelText = StringLoader::LoadLC( R_CAM_MEMLO_NOT_ENOUGH_MEMORY );
break;
case KErrPermissionDenied:
labelText = StringLoader::LoadLC( R_CAM_STANDBY_CAMERA_DISABLED_TEXT );
break;
case ECamErrMassStorageMode:
labelText = StringLoader::LoadLC( R_CAM_STANDBY_CAMERA_STORAGE_INACCESSIBLE );
break;
case ECamErrMemoryCardNotInserted:
labelText = StringLoader::LoadLC( R_CAM_STANDBY_CAMERA_INSERT_MMC );
break;
default: // any other error
labelText = StringLoader::LoadLC( R_CAM_STANDBY_CAMERA_UNAVAILABLE_TEXT );
break;
}
}
else
{
labelText = StringLoader::LoadLC( R_CAM_STANDBY_EMPTY_TEXT );
}
//iText->SetTextL( *labelText );
// Wrap the text, where it doesn't fit.
// ...Create the line width array necessary for ConvertToVisual..()
const TInt KLabelMaxLines = 5;
CArrayFix<TInt>* lineWidths =
new ( ELeave ) CArrayFixFlat<TInt> ( KLabelMaxLines );
CleanupStack::PushL( lineWidths );
for (TInt i = 0; i < KLabelMaxLines; ++i )
{
lineWidths->AppendL( Rect().Width() );
}
// ...Create the text buffer that will receive the wrapped text.
if( iWrappedLabelText )
{
delete iWrappedLabelText;
iWrappedLabelText = NULL;
}
iWrappedLabelText = HBufC::NewL(
labelText->Length() + KLabelMaxLines * ( KAknBidiExtraSpacePerLine + 1 ) );
TPtr ptr = iWrappedLabelText->Des();
// ...Get the wrapped text conversion.
AknBidiTextUtils::ConvertToVisualAndWrapToStringL(
labelText->Des(),
*lineWidths,
*AknLayoutUtils::FontFromId( EAknLogicalFontPrimaryFont ),
ptr,
ETrue
);
// ...Cleanup
CleanupStack::PopAndDestroy( lineWidths );
CleanupStack::PopAndDestroy( labelText );
// Set the wrapped text to the label.
iText->SetTextL( *iWrappedLabelText );
iText->DrawNow();
}
// End of File