--- a/mulwidgets/gesturehelper/src/gesture.cpp Tue Feb 02 00:28:09 2010 +0200
+++ /dev/null Thu Jan 01 00:00:00 1970 +0000
@@ -1,931 +0,0 @@
-/*
-* Copyright (c) 2008-2008 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: Gesture class
-*
-*/
-
-#include "gesture.h"
-
-#include <e32math.h>
-
-#include "gesturedefs.h"
-#include "utils.h"
-
-using namespace GestureHelper;
-
-/**
- * Point array for which only x axis is relevant
- */
-class TXAxisPointArray : public TPointArray
- {
-public:
- TXAxisPointArray( const RArray< TPointEntry >& aPoints )
- : TPointArray( aPoints ) {}
-
- // from TPointArray
- TPoint operator[]( TInt aIndex ) const
- {
- return TPoint( Raw( aIndex ).iX, 0 );
- }
- };
-
-/**
- * Point array for which only y axis is relevant
- */
-class TYAxisPointArray : public TPointArray
- {
-public:
- TYAxisPointArray( const RArray< TPointEntry >& aPoints )
- : TPointArray( aPoints ) {}
-
- // from TPointArray
- TPoint operator[]( TInt aIndex ) const
- {
- return TPoint( 0, Raw( aIndex ).iY );
- }
- };
-
-namespace
- {
- /** @return the current time */
- TTime CurrentTime()
- {
- TTime time;
- time.UniversalTime();
- return time;
- }
-
- /**
- * @param aRelevantAxis See @ref MGestureEvent::Code
- * @return gesture code by analysing the sequence of points
- */
- TGestureCode CodeFromPoints( const RArray< TPointEntry >& aPoints,
- MGestureEvent::TAxis aRelevantAxis )
- {
- // select the correct filter based on aRelevantAxis
- // these filter_ objects are array decorators that will eliminate either
- // x, y or neither coordinate of each point
- TXAxisPointArray filterY( aPoints );
- TYAxisPointArray filterX( aPoints );
- TPointArray filterNone( aPoints );
- TPointArray& filter =
- aRelevantAxis == MGestureEvent::EAxisHorizontal ? static_cast< TPointArray& >( filterY ) :
- aRelevantAxis == MGestureEvent::EAxisVertical ? static_cast< TPointArray& >( filterX ) :
- /* otherwise EAxisBoth */ filterNone;
-
- // currently the gesture recogniser does not have any state, so it is fast
- // to instantiate. The call is not static however, to allow the recogniser
- // to be replaced by a more complicated implementation that has state.
- // then it may make sense to make the recogniser a member variable.
- return TGestureRecogniser().GestureCode( filter, aRelevantAxis );
- }
-
- /**
- * @param aPoints Sequence of points representing 1st pointer movement
- * @param aSecondaryPoints Sequence of points representing 2nd pointer movement
- * @param aPreviousDistance contains the previous distance aftre this function execution
- * @return gesture code by analysing the sequence of points
- */
- TGestureCode MultiTouchCode( const RArray< TPointEntry >& aPoints,
- const RArray< TPointEntry >& aSecondaryPoints, TInt aPreviousDistance, TBool aIsFirstPinch )
- {
- TPointArray filter(aPoints);
- TPointArray secondaryFilter(aSecondaryPoints);
- return TGestureRecogniser().MultiTouchGestureCode( filter, secondaryFilter, aPreviousDistance, aIsFirstPinch );
- }
- } // unnamed namespace
-
-// ----------------------------------------------------------------------------
-// constructor
-// ----------------------------------------------------------------------------
-//
-CGesture::CGesture()
- {
- iPinchStartDistance = -1;
- iPinchEndDistance = -1;
- iPinchDetected = EFalse ;
- }
-
-// ----------------------------------------------------------------------------
-// destructor
-// ----------------------------------------------------------------------------
-//
-CGesture::~CGesture()
- {
- iPoints.Close();
- iSecondaryPoints.Close();
- }
-
-// ----------------------------------------------------------------------------
-// AsStartEventL
-// ----------------------------------------------------------------------------
-//
-CGesture* CGesture::AsStartEventLC() const
- {
- __ASSERT_DEBUG( 0 < iPoints.Count(), Panic( EGesturePanicIllegalLogic ) );
- CGesture* gesture = new ( ELeave ) CGesture;
- CleanupStack::PushL( gesture );
- User::LeaveIfError( gesture->AddPoint( iPoints[0].iPos ) );
- return gesture;
- }
-
-// ----------------------------------------------------------------------------
-// ResetToLastPoint
-// ----------------------------------------------------------------------------
-//
-void CGesture::ResetToLastPoint(TBool aSetPointerZero,TBool aSetToZero)
- {
- TPointEntry lastEntry(TPoint(0,0),TTime());
- if( aSetToZero )
- {
- __ASSERT_DEBUG( 0 < iPoints.Count(), Panic( EGesturePanicIllegalLogic ) );
- lastEntry = LastPoint( iPoints);
- }
- else
- {
- __ASSERT_DEBUG( 0 < iSecondaryPoints.Count(), Panic( EGesturePanicIllegalLogic ) );
- lastEntry = LastPoint( iSecondaryPoints);
- }
- Reset();
- if( aSetPointerZero )
- {
- iPoints.Append(lastEntry);
- }
- else
- {
- iSecondaryPoints.Append(lastEntry);
- }
- }
-
-// ----------------------------------------------------------------------------
-// LastPoint
-// ----------------------------------------------------------------------------
-//
-inline const TPointEntry CGesture::LastPoint( const RArray< TPointEntry >& aPoints ) const
- {
- return aPoints[aPoints.Count() - 1];
- }
-
-// ----------------------------------------------------------------------------
-// IsPinchToleranceHigh
-// ----------------------------------------------------------------------------
-//
-inline TBool CGesture::IsHighPinchTolerance() const
- {
-
- if( iPinchEndDistance == -1 )
- {
- return ETrue;
- }
- else
- {
- TInt currentDistance = TGestureRecogniser().Length( LastPoint(iPoints).iPos, LastPoint(iSecondaryPoints).iPos );
- // if previously zooming out and current distance corresponds to zooming in or viceversa
- if( ( iZoomState == EZoomOut && currentDistance < iPinchStartDistance) ||
- ( iZoomState == EZoomIn && currentDistance > iPinchStartDistance))
- {
- return ETrue;
- }
- }
- return EFalse;
- }
-// ----------------------------------------------------------------------------
-// Reset
-// ----------------------------------------------------------------------------
-//
-void CGesture::Reset()
- {
- iPoints.Reset();
- iSecondaryPoints.Reset();
- iHoldingState = ENotHolding;
- iState = ENotActive;
- iHoldingPointIndex = 0;
- iVisual = NULL;
- iIsDoubleTap = EFalse;
- iPinchStartDistance = -1;
- iPinchEndDistance = -1;
- iPinchDetected = EFalse;
- iZoomState = ENoZoom;
- }
-
-// ----------------------------------------------------------------------------
-// IsEmpty
-// ----------------------------------------------------------------------------
-//
-TBool CGesture::IsEmpty() const
- {
- return iPoints.Count() == 0;
- }
-
-// ----------------------------------------------------------------------------
-// IsMultiTouch
-// ----------------------------------------------------------------------------
-//
-TBool CGesture::IsMultiTouch() const
- {
- return iSecondaryPoints.Count() == 0;
- }
-
-// ----------------------------------------------------------------------------
-// Add a point to the sequence of points that together make up the gesture
-// ----------------------------------------------------------------------------
-//
-TInt CGesture::AddPoint( const TPoint& aPoint )
- {
- if ( !IsLatestPoint( aPoint ) )
- {
- return iPoints.Append( TPointEntry( aPoint, CurrentTime() ) );
- }
- return KErrNone;
- }
-
-// ----------------------------------------------------------------------------
-// AddSecondaryPoint
-// ----------------------------------------------------------------------------
-//
-TInt CGesture::AddSecondaryPoint( const TPoint& aPoint )
- {
- if ( !IsLatestSecondaryPoint( aPoint ) )
- {
- return iSecondaryPoints.Append( TPointEntry( aPoint, CurrentTime() ) );
- }
- return KErrNone;
- }
-
-// ----------------------------------------------------------------------------
-// SetVisual
-// ----------------------------------------------------------------------------
-//
-void CGesture::SetVisual( CAlfVisual* aVisual )
- {
- iVisual = aVisual;
- }
-
-// ----------------------------------------------------------------------------
-// IsNearHoldingPoint
-// ----------------------------------------------------------------------------
-//
-TBool CGesture::IsNearHoldingPoint( const TPoint& aPoint ) const
- {
- return ToleranceRect( iPoints[ iHoldingPointIndex ].iPos ).Contains( aPoint );
- }
-
-// ----------------------------------------------------------------------------
-// IsLatestPoint
-// ----------------------------------------------------------------------------
-//
-TBool CGesture::IsLatestPoint( const TPoint& aPoint ) const
- {
- if ( iPoints.Count() > 0 )
- {
- return aPoint == CurrentPos();
- }
- return EFalse;
- }
-// ----------------------------------------------------------------------------
-// IsLatestSecondaryPoint
-// ----------------------------------------------------------------------------
-//
-TBool CGesture::IsLatestSecondaryPoint( const TPoint& aPoint ) const
- {
- if ( iSecondaryPoints.Count() > 0 )
- {
- return aPoint == iSecondaryPoints[ iSecondaryPoints.Count() - 1 ].iPos;
- }
- return EFalse;
- }
-
-// ----------------------------------------------------------------------------
-// StartHolding
-// ----------------------------------------------------------------------------
-//
-void CGesture::StartHolding()
- {
- iHoldingState = EHoldStarting;
-
- // remove all points that were introduced after holding started
- for ( TInt i = iPoints.Count() - 1; i > iHoldingPointIndex; i-- )
- {
- iPoints.Remove( i );
- }
- }
-
-// ----------------------------------------------------------------------------
-// SetHoldingPoint
-// ----------------------------------------------------------------------------
-//
-void CGesture::SetHoldingPoint()
- {
- iHoldingPointIndex = iPoints.Count() - 1;
- }
-
-// ----------------------------------------------------------------------------
-// ContinueHolding
-// ----------------------------------------------------------------------------
-//
-void CGesture::ContinueHolding()
- {
- iHoldingState = EHolding;
- }
-
-// ----------------------------------------------------------------------------
-// SetSingleTouchActive
-// ----------------------------------------------------------------------------
-//
-void CGesture::SetSingleTouchActive()
- {
- __ASSERT_DEBUG( ENotActive == iState, Panic( EGesturePanicIllegalLogic ) );
- iState = ESingleTouchActive;
- }
-// ----------------------------------------------------------------------------
-// SetMultiTouchActive
-// ----------------------------------------------------------------------------
-//
-void CGesture::SetMultiTouchActive()
- {
- iState = EMultiTouchActive;
- iIsMultiTouched = ETrue;
- }
-// ----------------------------------------------------------------------------
-// SetSingleTouchReleased
-// ----------------------------------------------------------------------------
-//
-void CGesture::SetSingleTouchReleased()
- {
- // IsMovementStopped expects corresponding SetComplete to be called before SetRelease
- __ASSERT_DEBUG( ESingleTouchComplete == iState, Panic( EGesturePanicIllegalLogic ) );
- iState = ESingleTouchReleased;
- iIsMultiTouched = EFalse;
- }
-// ----------------------------------------------------------------------------
-// SetMultiTouchReleased
-// ----------------------------------------------------------------------------
-//
-void CGesture::SetMultiTouchReleased()
- {
- // IsMovementStopped expects corresponding SetComplete to be called before SetRelease
- __ASSERT_DEBUG( EMultiTouchComplete == iState, Panic( EGesturePanicIllegalLogic ) );
- iState = EMultiTouchReleased;
- }
-
-/**
- * @return elapsed time between aStartTime and aEndTime
- */
-inline TTimeIntervalMicroSeconds32 Elapsed( const TTime& aStartTime,
- const TTime& aEndTime )
- {
- return aEndTime.MicroSecondsFrom( aStartTime ).Int64();
- }
-
-// ----------------------------------------------------------------------------
-// SetSingleTouchComplete
-// ----------------------------------------------------------------------------
-//
-void CGesture::SetSingleTouchComplete()
- {
- __ASSERT_DEBUG( iPoints.Count() > 0, Panic( EGesturePanicIllegalLogic ) );
- iState = ESingleTouchComplete;
- iCompletionTime = CurrentTime();
- }
-
-// ----------------------------------------------------------------------------
-// SetMultiTouchComplete
-// ----------------------------------------------------------------------------
-//
-void CGesture::SetMultiTouchComplete()
- {
- __ASSERT_DEBUG( iSecondaryPoints.Count() > 0, Panic( EGesturePanicIllegalLogic ) );
- iState = EMultiTouchComplete;
- }
-
-// ----------------------------------------------------------------------------
-// SetCancelled
-// ----------------------------------------------------------------------------
-//
-void CGesture::SetCancelled()
- {
- iState = ECancelled;
- }
-
-// ----------------------------------------------------------------------------
-// SetDoubleTap
-// ----------------------------------------------------------------------------
-//
-void CGesture::SetDoubleTap()
- {
- iIsDoubleTap = ETrue;
- }
-
-// ----------------------------------------------------------------------------
-// IsTap
-// ----------------------------------------------------------------------------
-//
-TBool CGesture::IsTap() const
- {
- if(iIsMultiTouched)
- {
- return EFalse;
- }
- return CodeFromPoints( iPoints, EAxisBoth ) == EGestureTap;
- }
-
-// ----------------------------------------------------------------------------
-// IsPinch
-// ----------------------------------------------------------------------------
-//
-TBool CGesture::IsPinch()
- {
- if (iPinchStartDistance == -1 )
- {
- iPinchStartDistance = TGestureRecogniser().Length( iPoints[0].iPos, iSecondaryPoints[0].iPos ) ;
- }
- // if there is a pinch detected in the last attempt then update the start distance.
- // henceforth this new distance is used as reference for calculating the pinch.
-
- if( iPinchDetected )
- {
- iPinchStartDistance = iPinchEndDistance;
- }
- iPinchDetected = MultiTouchCode( iPoints, iSecondaryPoints, iPinchStartDistance,IsHighPinchTolerance()) == EGesturePinch;
- if( iPinchDetected )
- {
- // This end distance is updated the first time the pinch is detected.
- // This is done the save the value of pinch end distnce for further refernce to
- // update the pinch start distance next time any pointer position changes.
- iPinchEndDistance = TGestureRecogniser().Length(
- LastPoint(iPoints).iPos,LastPoint(iSecondaryPoints).iPos );
- iZoomState = iPinchEndDistance > iPinchStartDistance ? EZoomOut : EZoomIn;
- }
- return iPinchDetected;
- }
-
-/**
- * Translates a non-holding code into a holding code
- * @param aCode original gesture code
- * @return a gesture code with hold flag applied
- */
-inline TGestureCode Hold( TGestureCode aCode )
- {
- if ( aCode != EGestureStart &&
- aCode != EGestureDrag &&
- aCode != EGestureReleased &&
- aCode != EGestureUnknown )
- {
- return static_cast< TGestureCode >( aCode | EFlagHold );
- }
- return aCode;
- }
-
-// ----------------------------------------------------------------------------
-// Code
-// ----------------------------------------------------------------------------
-//
-TGestureCode CGesture::Code( TAxis aRelevantAxis ) const
- {
- switch ( iState )
- {
- case ESingleTouchActive:
- // "start" event if only first point received
- // need to check that not holding, in case user pressed stylus
- // down, and activated holding without moving the stylus
- if ( iPoints.Count() == 1 && !IsHolding() )
- {
- return EGestureStart;
- }
- // "drag" event if holding not started or holding started earlier
- else if ( iHoldingState != EHoldStarting )
- {
- // select the correct filter based on aRelevantAxis
- // these filter_ objects are array decorators that will eliminate either
- // x, y or neither coordinate of each point
- TXAxisPointArray filterY( iPoints );
- TYAxisPointArray filterX( iPoints );
- TPointArray filterNone( iPoints );
- TPointArray& filter =
- aRelevantAxis == MGestureEvent::EAxisHorizontal ? static_cast< TPointArray& >( filterY ) :
- aRelevantAxis == MGestureEvent::EAxisVertical ? static_cast< TPointArray& >( filterX ) :
- /* otherwise EAxisBoth */ filterNone;
-
- return TGestureRecogniser().ValidateDrag( filter, aRelevantAxis );
- }
- // holding was just started
- else
- {
- return Hold( CodeFromPoints( iPoints, aRelevantAxis ) );
- }
-
- case EMultiTouchActive:
- // Only if there are some points in secondary array
- if ( iSecondaryPoints.Count() == 1 && iPoints.Count() == 1 )
- {
- return EGestureMultiTouchStart;
- }
- else
- {
- return MultiTouchCode( iPoints, iSecondaryPoints, iPinchStartDistance,IsHighPinchTolerance() );
- }
-
- case ESingleTouchComplete:
- {
- if ( iIsDoubleTap )
- {
- return EGestureDoubleTap;
- }
-
- // If there was a mulitouch within the last gesture then ignore the tap
- TGestureCode gestureCode = CodeFromPoints( iPoints, aRelevantAxis );
- if( gestureCode == EGestureTap && iIsMultiTouched)
- {
- return EGestureUnknown;
- }
- return gestureCode;
- }
- case EMultiTouchComplete:
- return MultiTouchCode( iPoints, iSecondaryPoints, iPinchStartDistance,IsHighPinchTolerance());
-
- case ESingleTouchReleased:
- return EGestureReleased;
- case EMultiTouchReleased:
- return EGestureMultiTouchReleased;
-
- case ECancelled: // fallthrough
- case ENotActive:
- default:
- return EGestureUnknown;
- }
- }
-
-// ----------------------------------------------------------------------------
-// IsHolding
-// ----------------------------------------------------------------------------
-//
-TBool CGesture::IsHolding() const
- {
- return iHoldingState >= EHoldStarting;
- }
-
-// ----------------------------------------------------------------------------
-// StartPos
-// ----------------------------------------------------------------------------
-//
-TPoint CGesture::StartPos() const
- {
- // at least one point will be in the array during callback (pointer down pos)
- return iPoints[ 0 ].iPos;
- }
-
-// ----------------------------------------------------------------------------
-// CurrentPos
-// ----------------------------------------------------------------------------
-//
-TPoint CGesture::CurrentPos() const
- {
- // at least on point will be in the array during callback (pointer down pos)
- return iPoints[ iPoints.Count() - 1 ].iPos;
- }
-
-// ----------------------------------------------------------------------------
-// IsMovementStopped
-// ----------------------------------------------------------------------------
-//
-inline TBool CGesture::IsMovementStopped() const
- {
- // iCompletionTime is only only valid if client has called SetComplete
- if ( iState >= ESingleTouchComplete )
- {
- return Elapsed( NthLastEntry( 1 ).iTime, iCompletionTime ).Int() > KSpeedStopTime;
- }
- return EFalse;
- }
-
-namespace
- {
- const TInt KFloatingPointAccuracy = 0.000001;
-
- /** @return percentage (0.0-1.0) how far aPos is from aEdge1 towards aEdge2 */
- inline TReal32 Proportion( TReal32 aPos, TReal32 aEdge1, TReal32 aEdge2 )
- {
- if ( Abs( aEdge2 - aEdge1 ) > KFloatingPointAccuracy )
- {
- return ( aPos - aEdge1 ) / ( aEdge2 - aEdge1 );
- }
- return 0; // avoid division by zero
- }
-
- /** Edges (pixels) at which speed should be -100% or 100% */
- NONSHARABLE_STRUCT( TEdges )
- {
- TReal32 iMin;
- TReal32 iMax;
- };
-
- /**
- * scale which allows different (coordinate -> percentage) mapping
- * between -100% to 0% and 0 and 100%
- */
- NONSHARABLE_STRUCT( TScale )
- {
- TScale( TInt aZero, const TEdges& aEdges )
- : iMin( aEdges.iMin ), iZero( aZero ), iMax( aEdges.iMax )
- {
- }
-
- /** @return aPos as a percentage between -100% and 100% in aScale */
- TReal32 Percent( TReal32 aPos ) const;
-
- /// coordinate where speed is -100%
- TReal32 iMin;
- /// coordinate where speed is 0%
- TReal32 iZero;
- /// coordinate where speed is 100%
- TReal32 iMax;
- };
-
- /** @convert aPos into a percentage between -100% and 100% in aScale */
- TReal32 TScale::Percent( TReal32 aPos ) const
- {
- TReal32 percent;
- if ( aPos < iZero )
- {
- // return negative percentages on the lower side of zero point
- percent = -1 * Proportion( aPos, iZero, iMin );
- }
- else
- {
- percent = Proportion( aPos, iZero, iMax );
- }
- // constrain between -100% and 100%
- return Min( Max( percent, -1.0F ), 1.0F );
- }
-
- /** Scale in x and y dimensions */
- NONSHARABLE_STRUCT( TScale2D )
- {
- TRealPoint Percent( const TPoint& aPos ) const
- {
- return TRealPoint( iX.Percent( aPos.iX ),
- iY.Percent( aPos.iY ) );
- }
-
- TScale iX;
- TScale iY;
- };
-
- enum TDirection { ESmaller, ELarger };
-
- /** @return the direction of pos compared to the previous pos */
- inline TDirection Direction( TInt aPos, TInt aPreviousPos )
- {
- return aPos < aPreviousPos ? ESmaller : ELarger;
- }
-
- /** Direction in x and y dimensions */
- NONSHARABLE_STRUCT( TDirection2D )
- {
- TDirection iX;
- TDirection iY;
- };
-
- /** Return the direction (up/down) of signal at aIndex */
- inline TDirection2D Direction( TInt aIndex, const RArray< TPointEntry >& aPoints )
- {
- const TPoint& pos = aPoints[ aIndex ].iPos;
- const TPoint& prevPos = aPoints[ aIndex - 1 ].iPos;
- TDirection2D dir = { Direction( pos.iX, prevPos.iX ),
- Direction( pos.iY, prevPos.iY ) };
- return dir;
- }
- /**
- * @return a position in the aLow and aHigh, so that it aProportion of
- * of length is above the pos
- */
- TReal32 ProportionalLength( TReal32 aLow, TReal32 aHigh, TReal32 aProportion )
- {
- return ( aHigh - aLow ) * aProportion / ( 1 + aProportion );
- }
-
- /**
- * @return aVariableEdge scaled to new position, when the other edge changes
- * from aOldEdge to aNewEdge, so that aOrigin maintains the *same relative
- * position* between aVariableEdge and the other edge
- */
- inline TReal32 ScaledEdge( TReal32 aOrigin, TReal32 aVariableEdge,
- TReal32 aOldEdge, TReal aNewEdge )
- {
- TReal32 proportion = Proportion( aOrigin, aVariableEdge, aOldEdge );
- return ( proportion * aNewEdge - aOrigin ) / ( proportion - 1 );
- }
-
- TScale Rescale( TReal32 aPos, TDirection aDir, TDirection aPrevDir,
- const TScale& aPrevScale, const TEdges& aEdges )
- {
- TScale scale( aPrevScale );
- if ( aPrevDir != aDir )
- {
- // the code duplication is accepted here, since it is difficult to factor out
- // while maintaining the understandability of this anyway complex algorithm
- if ( aDir == ESmaller )
- {
- scale.iMin = aEdges.iMin;
- if ( aPrevScale.iZero < aPos )
- {
- TReal32 proportionAboveZero = Proportion( aPos, aPrevScale.iZero, aPrevScale.iMax );
- scale.iZero = aPos - ProportionalLength( aEdges.iMin, aPos, proportionAboveZero );
- }
- else
- {
- // adjust zero pos so that proportion between aPos, Min, and Zero pos
- // stay the same (Min will move to 0, aPos stays the same)
- scale.iZero = ScaledEdge( aPos, aPrevScale.iZero,
- aPrevScale.iMin, aEdges.iMin );
- }
- // adjust the upper edge to take into account the movement of zero pos
- scale.iMax = ScaledEdge( aPos, aPrevScale.iMax,
- aPrevScale.iZero, scale.iZero );
- }
- else // ELarger
- {
- scale.iMax = aEdges.iMax;
- if ( aPos < aPrevScale.iZero )
- {
- TReal32 proportionBelowZero = Proportion( aPos, aPrevScale.iZero, aPrevScale.iMin );
- scale.iZero = aPos + ProportionalLength( aPos, aEdges.iMax, proportionBelowZero );
- }
- else
- {
- // adjust zero pos so that proportion between aPos, Max, and Zero pos
- // stay the same (Max will move edge, aPos stays the same)
- scale.iZero = ScaledEdge( aPos, aPrevScale.iZero,
- aPrevScale.iMax, aEdges.iMax );
- }
- // adjust the lower edge to take into account the movement of zero pos
- scale.iMin = ScaledEdge( aPos, aPrevScale.iMin,
- aPrevScale.iZero, scale.iZero );
- }
- }
- return scale;
- }
-
- /** Edges in x and y dimensions */
- NONSHARABLE_STRUCT( TEdges2D )
- {
- TEdges iX;
- TEdges iY;
- };
-
- /**
- * @param aEdges edges of the area in which gesture points are accepted
- * @return the scale of latest point in the list of points
- */
- TScale2D Scale( const RArray< TPointEntry >& aPoints, const TEdges2D& aEdges )
- {
- TScale2D scale = { TScale( aPoints[0].iPos.iX, aEdges.iX ),
- TScale( aPoints[0].iPos.iY, aEdges.iY ) };
- TInt count = aPoints.Count();
- if ( count > 1 )
- {
- // iterate the whole point list to arrive to the current scale
- TDirection2D dir( Direction( 1, aPoints ) );
- for ( TInt i = 1; i < count; i++ )
- {
- // get direction at i
- TDirection2D newDir( Direction( i, aPoints ) );
- // get new scale at i
- scale.iX = Rescale( aPoints[i - 1].iPos.iX, newDir.iX, dir.iX, scale.iX, aEdges.iX );
- scale.iY = Rescale( aPoints[i - 1].iPos.iY, newDir.iY, dir.iY, scale.iY, aEdges.iY );
- dir = newDir;
- }
- }
- return scale;
- }
- } // unnamed namespace
-
-TRealPoint CGesture::SpeedPercent( const TRect& aEdges ) const
- {
- // x and y coordinates are easier to handle separately, extract from TRect:
- // ((iMinX, iMinY), (iMaxX, iMaxY)) -> ((iMinX, iMaxX), (iMinY, iMaxY))
- TEdges2D edges = { { aEdges.iTl.iX, aEdges.iBr.iX },
- { aEdges.iTl.iY, aEdges.iBr.iY } };
- // work out the current scale (coordinate -> percentage mapping) from
- // the history of points (i.e., points of current gesture). Then
- // calculate the percentage of the current position.
- return Scale( iPoints, edges ).Percent( CurrentPos() );
- }
-
-// ----------------------------------------------------------------------------
-// Speed
-// ----------------------------------------------------------------------------
-//
-TRealPoint CGesture::Speed() const
- {
- const TReal32 KMicroSecondsInSecond = 1000000;
-
- // Speed is only evaluated at the end of the swipe
- // if user stops at the end of the swipe before lifting stylus,
- // speed is zero. If time is zero, return 0 speed (infinite does
- // not make sense either). Will need to consider also earlier points
- // and their times or start time, if this zero-speed behavior is a problem
- TRealPoint speed;
- TReal32 time = static_cast<TReal32>( TimeFromPreviousPoint().Int() )
- / KMicroSecondsInSecond;
- if ( !IsMovementStopped() && time > 0 )
- {
- TPoint distance = CurrentPos() - PreviousPos();
- speed.iX = static_cast<TReal32>( distance.iX ) / time;
- speed.iY = static_cast<TReal32>( distance.iY ) / time;
- }
- return speed;
- }
-
-// ----------------------------------------------------------------------------
-// Distance
-// ----------------------------------------------------------------------------
-//
-TPoint CGesture::Distance() const
- {
- return CurrentPos() - StartPos();
- }
-
-// ----------------------------------------------------------------------------
-// Visual
-// ----------------------------------------------------------------------------
-//
-CAlfVisual* CGesture::Visual() const
- {
- return iVisual;
- }
-
-// ----------------------------------------------------------------------------
-// TimeFromPreviousPoint
-// ----------------------------------------------------------------------------
-//
-inline TTimeIntervalMicroSeconds32 CGesture::TimeFromPreviousPoint() const
- {
- const TInt KLatestEntryOffset = 1;
- return Elapsed( PreviousEntry().iTime, NthLastEntry( KLatestEntryOffset ).iTime );
- }
-
-// ----------------------------------------------------------------------------
-// return nth point from the end of the points array
-// ----------------------------------------------------------------------------
-//
-inline const TPointEntry& CGesture::NthLastEntry( TInt aOffset ) const
- {
- return iPoints[ Max( iPoints.Count() - aOffset, 0 ) ];
- }
-
-// ----------------------------------------------------------------------------
-// PreviousEntry
-// ----------------------------------------------------------------------------
-//
-inline const TPointEntry& CGesture::PreviousEntry() const
- {
- return NthLastEntry( KPreviousPointOffset );
- }
-
-// ----------------------------------------------------------------------------
-// PreviousPos
-// ----------------------------------------------------------------------------
-//
-inline TPoint CGesture::PreviousPos() const
- {
- return PreviousEntry().iPos;
- }
-
-// ----------------------------------------------------------------------------
-// PinchPercent
-// ----------------------------------------------------------------------------
-//
-TInt CGesture::PinchPercent() const
- {
- return (iPinchEndDistance*100/iPinchStartDistance);
- }
-
-// ----------------------------------------------------------------------------
-// PinchCentrePoint
-// ----------------------------------------------------------------------------
-//
-TPoint CGesture::PinchCentrePoint() const
- {
- if( iPoints.Count() <= 0 || iSecondaryPoints.Count() <= 0 )
- {
- return TPoint(0,0);
- }
- TInt greaterX = iPoints[0].iPos.iX > iSecondaryPoints[0].iPos.iX ? iPoints[0].iPos.iX : iSecondaryPoints[0].iPos.iX;
- TInt greaterY = iPoints[0].iPos.iY > iSecondaryPoints[0].iPos.iY ? iPoints[0].iPos.iY : iSecondaryPoints[0].iPos.iY;
- return TPoint( (Abs(iPoints[0].iPos.iX - iSecondaryPoints[0].iPos.iX)/2 + greaterX), (Abs(iPoints[0].iPos.iY - iSecondaryPoints[0].iPos.iY)/2 + greaterY));
- }
-
-// end of file
-