// Copyright (c) 1996-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "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:
// e32test\active\t_asyc.cpp
// Overview:
// Exercise the priority mechanism of active objects whereby active
// objects are run in the priority order.
// API Information:
// CAsyncOneShot, CActiveScheduler.
// Details:
// - Install active scheduler.
// - Create active objects of different priorities and verify their RunL
// is called in the priority order.
// - Verify that a very low priority active object will not get the chance
// to run if a higher priority object keeps rescheduling itself or a
// higher priority object stops the active scheduler.
// Platforms/Drives/Compatibility:
// All.
// Assumptions/Requirement/Pre-requisites:
// Failures and causes:
// Base Port information:
//
//
#include <e32test.h>
enum {ETopPriority=1000,EMiddlePriority=900,ELatePriority=800};
const TInt KIToldYouSo=666;
class CMyActiveScheduler : public CActiveScheduler
{
public:
virtual void Error(TInt anError) const;
};
LOCAL_D RTest test(_L("T_ASYC"));
void CMyActiveScheduler::Error(TInt anError) const
//
// Called if any Run() method leaves.
//
{
test.Panic(anError,_L("CMyActiveScheduler::Error"));
}
class CMyMultiShot : public CAsyncOneShot
{
public:
static CMyMultiShot* NewL(TInt aPriority,const TDesC& aMessage,TInt aCount);
void RunL();
CMyMultiShot(TInt aPriority,const TDesC& aMessage,TInt aCount);
private:
TInt iCountRemaining;
TPtrC iMessage;
};
class CShouldNeverRun : public CAsyncOneShot
{
public:
void RunL();
static CShouldNeverRun* NewL();
CShouldNeverRun();
};
class CStopTheScheduler : public CAsyncOneShot
{
public:
CStopTheScheduler(TInt aPriority);
static CStopTheScheduler* NewL(TInt aPriority);
void RunL();
};
CMyMultiShot* CMyMultiShot::NewL(TInt aPriority,const TDesC& aMessage,TInt aCount)
{
return new(ELeave)CMyMultiShot(aPriority,aMessage,aCount);
}
CMyMultiShot::CMyMultiShot(TInt aPriority,const TDesC& aMessage,TInt aCount)
:CAsyncOneShot(aPriority),iMessage(aMessage)
{
iCountRemaining=aCount;
}
void CMyMultiShot::RunL()
{
if (iCountRemaining--)
{
test.Printf(_L("%S,%d\n\r"),&iMessage,iCountRemaining);
Call();
}
}
CShouldNeverRun* CShouldNeverRun::NewL()
{
return new(ELeave)CShouldNeverRun;
}
CShouldNeverRun::CShouldNeverRun()
:CAsyncOneShot(KMinTInt)
{
}
void CShouldNeverRun::RunL()
{
User::Panic(_L("CShouldNeverRun"),KIToldYouSo);
}
CStopTheScheduler* CStopTheScheduler::NewL(TInt aPriority)
{
return new(ELeave)CStopTheScheduler(aPriority);
}
CStopTheScheduler::CStopTheScheduler(TInt aPriority)
:CAsyncOneShot(aPriority)
{
}
void CStopTheScheduler::RunL()
{
CActiveScheduler::Stop();
}
GLDEF_C TInt E32Main()
//
// Test idle objects.
//
{
test.Title();
test.Start(_L("Testing idle object cancellation"));
//
CMyActiveScheduler* pR=new CMyActiveScheduler;
test(pR!=NULL);
CActiveScheduler::Install(pR);
//
CShouldNeverRun* pn=CShouldNeverRun::NewL();
pn->Call();
CStopTheScheduler* ps=CStopTheScheduler::NewL(ELatePriority);
ps->Call();
CMyMultiShot* multiShot1=CMyMultiShot::NewL(EMiddlePriority,_L("Call Ten times"),10);
multiShot1->Call();
CMyMultiShot* multiShot2=CMyMultiShot::NewL(ETopPriority,_L("Call five times"),5);
multiShot2->Call();
CActiveScheduler::Start();
//
test.End();
return(0);
}