--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/javaextensions/sensor/src.s60/cpssensorbase.cpp Mon May 03 12:27:20 2010 +0300
@@ -0,0 +1,333 @@
+/*
+* Copyright (c) 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: Base class for Publish & Subscripe -type Sensors
+*
+*/
+
+
+#include "sensorlistener.h"
+#include "cpssensorbase.h"
+#include "logger.h"
+
+const TInt KPSSensorChannel = 0;
+const TInt KPSSensorInvalidValue = 0;
+
+CPSSensorBase::CPSSensorBase(TTimeIntervalMicroSeconds32 aPollInterval)
+ : iPollInterval(aPollInterval)
+{
+ JELOG2(ESensor);
+}
+
+CPSSensorBase::~CPSSensorBase()
+{
+ JELOG2(ESensor);
+ iProperty.Close();
+ if (iAsyncQuery)
+ {
+ iAsyncQuery->Cancel();
+ delete iAsyncQuery;
+ }
+ if (iPollTimer)
+ {
+ iPollTimer->Cancel();
+ delete iPollTimer;
+ }
+}
+
+void CPSSensorBase::ConstructL(TUid aPropertyCategory, TInt aPropertyKey)
+{
+ JELOG2(ESensor);
+ iPropertyCategory = aPropertyCategory;
+ iPropertyKey = aPropertyKey;
+ CSensorBase::ConstructL();
+}
+
+int CPSSensorBase::OpenChannel(SensorListener* aListener)
+{
+ JELOG2(ESensor);
+ TRAPD(err, OpenChannelL(aListener));
+ return err;
+}
+
+void CPSSensorBase::OpenChannelL(SensorListener* aListener)
+{
+ JELOG2(ESensor);
+ iSensorListener = aListener;
+ iPollTimer = CPSSensorDataListenTimer::NewL(*this);
+ CActiveScheduler::Add(iPollTimer);
+
+ iAsyncQuery = CPSSensorBaseAsyncQuery::NewL(*this, iPropertyCategory, iPropertyKey);
+ CActiveScheduler::Add(iAsyncQuery);
+
+ User::LeaveIfError(iProperty.Attach(iPropertyCategory, iPropertyKey));
+}
+
+void CPSSensorBase::StartDataListeningL()
+{
+ JELOG2(ESensor);
+ if (iPollTimer->IsActive())
+ {
+ iPollTimer->Cancel();
+ }
+ ResetAccumulationData();
+ AccumulateDataL();
+}
+
+void CPSSensorBase::CancelDataListeningL()
+{
+ JELOG2(ESensor);
+ iPollTimer->Cancel();
+}
+
+void CPSSensorBase::CloseChannelL()
+{
+ JELOG2(ESensor);
+ iSensorListener = NULL;
+}
+
+void CPSSensorBase::StartConditionListeningL()
+{
+ JELOG2(ESensor);
+ // Evaluate current value right away to check if the current
+ // value already matches
+ PropertyValueChanged();
+
+ // Request notification of property value change
+ iAsyncQuery->NotifyOnChange();
+}
+
+void CPSSensorBase::StopConditionListeningL()
+{
+ JELOG2(ESensor);
+ iAsyncQuery->Cancel();
+}
+
+TBool CPSSensorBase::EvaluateConditions(TInt aValue, TInt aChannelId)
+{
+ JELOG2(ESensor);
+ // Values below zero are error codes; no condition listening callbacks
+ // for invalid values.
+ if (aValue < 0)
+ {
+ return EFalse;
+ }
+ return CSensorBase::EvaluateConditions(aValue, aChannelId);
+}
+
+
+void CPSSensorBase::AddConditionL(void** aHandle, int aChannelId,
+ double aLowerLimit, double aUpperLimit, int aLowerOp,
+ int aUpperOp)
+{
+ JELOG2(ESensor);
+ CSensorBase::AddConditionL(aHandle, aChannelId, aLowerLimit,
+ aUpperLimit, aLowerOp, aUpperOp);
+
+ // Check conditions right away for current value
+ PropertyValueChanged();
+}
+
+void CPSSensorBase::ResetAccumulationData()
+{
+ JELOG2(ESensor);
+ iData[ KPSSensorChannel ]->iNumOfValues = 0;
+ iStartTime = KErrNotFound;
+}
+
+void CPSSensorBase::AccumulateDataL()
+{
+ JELOG2(ESensor);
+ __ASSERT_DEBUG(iData != NULL, User::Invariant());
+ SensorData* data = iData[ KPSSensorChannel ];
+
+ // Request new data accumulation event
+ iPollTimer->After(iPollInterval);
+
+ TTime currentTime;
+ if (data->iTimeStampsIncluded || (iBufferingPeriod > 0))
+ {
+ currentTime.UniversalTime();
+ if (iStartTime == KErrNotFound)
+ {
+ iStartTime = currentTime;
+ }
+ }
+
+ TInt currentValue = 0;
+ TInt err = iProperty.Get(currentValue);
+ __ASSERT_DEBUG(err == KErrNone, User::Invariant());
+
+ // P&S sensors are assumed to have one channel only
+ TInt interpretedValue = InterpretValue(currentValue);
+
+ // Negative values are error codes and therefore marked
+ // as invalid. Returned value for invalid values is zero.
+ if (interpretedValue < 0)
+ {
+ data->iIntValues[ data->iNumOfValues ] = KPSSensorInvalidValue;
+ if (data->iValiditiesIncluded)
+ {
+ data->iValidities[ data->iNumOfValues ] = EFalse;
+ }
+ }
+ else
+ {
+ data->iIntValues[ data->iNumOfValues ] = interpretedValue;
+ if (data->iValiditiesIncluded)
+ {
+ data->iValidities[ data->iNumOfValues ] = ETrue;
+ }
+ }
+
+ if (data->iTimeStampsIncluded)
+ {
+ data->iTimeStamps[ data->iNumOfValues ] = TimeStamp(currentTime);
+ }
+ data->iNumOfValues++;
+
+ TInt64 intervalFromStart = -1;
+ if (iBufferingPeriod > 0)
+ {
+ intervalFromStart = currentTime.MicroSecondsFrom(iStartTime).Int64();
+ }
+
+ if ((data->iNumOfValues == iBufferSize) ||
+ (iBufferingPeriod > 0 && intervalFromStart > iBufferingPeriod))
+ {
+ SendData();
+ }
+}
+
+void CPSSensorBase::SendData()
+{
+ JELOG2(ESensor);
+ if (iIsOneShot)
+ {
+ iPollTimer->Cancel();
+ }
+ iSensorListener->DataReceived(iData, EFalse);
+ ResetAccumulationData();
+}
+
+void CPSSensorBase::PropertyValueChanged()
+{
+ JELOG2(ESensor);
+ TInt value;
+ TInt err = iProperty.Get(value);
+ __ASSERT_DEBUG(err == KErrNone, User::Invariant());
+
+ // Negative values are sensor value range
+ if (err == KErrNone && value >= 0)
+ {
+ EvaluateConditions(value, KPSSensorChannel);
+ }
+}
+
+// ***************************************************************************
+// CPSSensorBaseAsyncQuery
+// ***************************************************************************
+
+CPSSensorBase::CPSSensorBaseAsyncQuery*
+CPSSensorBase::CPSSensorBaseAsyncQuery::NewL(CPSSensorBase& aSensorBase,
+ TUid aPropertyCategory, TInt aPropertyKey)
+{
+ JELOG2(ESensor);
+ CPSSensorBaseAsyncQuery* self =
+ new(ELeave)CPSSensorBaseAsyncQuery(aSensorBase);
+ CleanupStack::PushL(self);
+ self->ConstructL(aPropertyCategory, aPropertyKey);
+ CleanupStack::Pop(); // self
+ return self;
+}
+
+CPSSensorBase::CPSSensorBaseAsyncQuery::CPSSensorBaseAsyncQuery(CPSSensorBase& aSensorBase)
+ : CActive(EPriorityStandard), iSensorBase(aSensorBase)
+{
+ JELOG2(ESensor);
+}
+
+void CPSSensorBase::CPSSensorBaseAsyncQuery::ConstructL(TUid aPropertyCategory, TInt aPropertyKey)
+{
+ JELOG2(ESensor);
+ User::LeaveIfError(iProperty.Attach(aPropertyCategory, aPropertyKey));
+}
+
+CPSSensorBase::CPSSensorBaseAsyncQuery::~CPSSensorBaseAsyncQuery()
+{
+ JELOG2(ESensor);
+ iProperty.Close();
+}
+
+void CPSSensorBase::CPSSensorBaseAsyncQuery::NotifyOnChange()
+{
+ JELOG2(ESensor);
+ if (!IsActive())
+ {
+ iProperty.Subscribe(iStatus);
+ SetActive();
+ }
+}
+
+void CPSSensorBase::CPSSensorBaseAsyncQuery::RunL()
+{
+ JELOG2(ESensor);
+ iProperty.Subscribe(iStatus);
+ SetActive();
+ iSensorBase.PropertyValueChanged();
+}
+
+void CPSSensorBase::CPSSensorBaseAsyncQuery::DoCancel()
+{
+ JELOG2(ESensor);
+ iProperty.Cancel();
+}
+
+// ***************************************************************************
+// CPSSensorDataListenTimer
+// ***************************************************************************
+
+CPSSensorBase::CPSSensorDataListenTimer*
+CPSSensorBase::CPSSensorDataListenTimer::NewL(CPSSensorBase& aSensorBase)
+{
+ JELOG2(ESensor);
+ CPSSensorDataListenTimer* self =
+ new(ELeave)CPSSensorDataListenTimer(aSensorBase);
+ CleanupStack::PushL(self);
+ self->ConstructL();
+ CleanupStack::Pop(); // self
+ return self;
+}
+
+CPSSensorBase::CPSSensorDataListenTimer::CPSSensorDataListenTimer(
+ CPSSensorBase& aSensorBase)
+ : CTimer(EPriorityNormal), iSensorBase(aSensorBase)
+{
+ JELOG2(ESensor);
+}
+
+CPSSensorBase::CPSSensorDataListenTimer::~CPSSensorDataListenTimer()
+{
+ JELOG2(ESensor);
+}
+
+void CPSSensorBase::CPSSensorDataListenTimer::RunL()
+{
+ JELOG2(ESensor);
+ iSensorBase.AccumulateDataL();
+}
+
+void CPSSensorBase::CPSSensorDataListenTimer::DoCancel()
+{
+ JELOG2(ESensor);
+}