Enhance the base/rom extension to generate the symbol file of the rom built.
The symbol file is placed in epoc32/rom/<baseport_name>, along with the rom log and final oby file.
// 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\system\t_multin.cpp
// Overview:
// Test multiple inheritance with and without virtual bases.
// API Information:
// N/A
// Details:
// - Test multiple inheritance with virtual bases. Using a virtual
// base class, copy one or more strings from the "producer" object
// to the "consumer" object. Verify that results are as expected.
// - Test multiple inheritance without virtual bases. Using a non-
// virtual base class, copy one or more strings from the "producer"
// object to the "consumer" object. Verify that results are as expected.
// Platforms/Drives/Compatibility:
// All.
// Assumptions/Requirement/Pre-requisites:
// Failures and causes:
// Base Port information:
//
//
#include "t_multin.h"
LOCAL_D RTest test(_L("T_MULTIN"));
void MConsumer::Consume(const TDesC& aStr1,const TDesC& aStr2)
{
#if defined(__TRACE__)
test.Printf(_L("MConsumer::Consume(s,s)\n"));
//test.Getch();
#endif
TBuf<0x100> b;b.Format(_L("%S%S"),&aStr1,&aStr2);Consume(b);
}
void MConsumer::Consume(const TDesC& aStr1,const TDesC& aStr2,const TDesC& aStr3)
{
#if defined(__TRACE__)
test.Printf(_L("MConsumer::Consume(s,s,s)\n"));
//test.Getch();
#endif
TBuf<0x100> b;b.Format(_L("%S%S%S"),&aStr1,&aStr2,&aStr3);Consume(b);
}
void MConsumer::Consume(const TDesC& aStr1,const TDesC& aStr2,const TDesC& aStr3,const TDesC& aStr4)
{
#if defined(__TRACE__)
test.Printf(_L("MConsumer::Consume(s,s,s,s)\n"));
//test.Getch();
#endif
TBuf<0x100> b;b.Format(_L("%S%S%S%S"),&aStr1,&aStr2,&aStr3,&aStr4);Consume(b);
}
TPtrC MPipe::Produce()
{
#if defined(__TRACE__)
test.Printf(_L("MPipe::Produce\n"));
//test.Getch();
#endif
return(iBuf);
}
void MPipe::Consume(const TDesC& aStr)
{
#if defined(__TRACE__)
test.Printf(_L("MPipe::Consume(s)\n"));
//test.Getch();
#endif
#if defined(__TRACE__)
{
TInt l=*(TInt*)&aStr;
TInt t=l>>28;
l&=0xfffffff;
test.Printf(_L("aStr type=%d,aStr length=%d\n"),t,l);
//
TText* p=NULL;
switch (t)
{
case 0:
p=(TText*)((TInt*)&aStr+1);
break;
case 1:
p=*(TText**)((TInt*)&aStr+1);
break;
case 2:
p=*(TText**)((TInt*)&aStr+2);
break;
case 3:
p=(TText*)((TInt*)&aStr+2);
break;
case 4:
p=(TText*)(*(TInt**)((TInt*)&aStr+2)+1);
break;
}
//
test.Printf(_L("aStr=\"%.3s...\"\n"),p);
}
//test.Getch();
#endif
#if defined(__TRACE__)
{
TInt l=*(TInt*)&iBuf;
TInt t=l>>28;
l&=0xfffffff;
TInt m=((TInt*)&iBuf)[1];
test.Printf(_L("iBuf type=%d,iBuf length=%d,iBuf max length=%d\n"),t,l,m);
//
TText* p=NULL;
switch (t)
{
case 0:
p=(TText*)((TInt*)&iBuf+1);
break;
case 1:
p=*(TText**)((TInt*)&iBuf+1);
break;
case 2:
p=*(TText**)((TInt*)&iBuf+2);
break;
case 3:
p=(TText*)((TInt*)&iBuf+2);
break;
case 4:
p=(TText*)(*(TInt**)((TInt*)&iBuf+2)+1);
break;
}
//
test.Printf(_L("iBuf=\"%.3s...\"\n"),p);
}
//test.Getch();
#endif
iBuf=aStr;
}
void MPipe::Consume(const TDesC& aStr1,const TDesC& aStr2)
{
#if defined(__TRACE__)
test.Printf(_L("MPipe::Consume(s,s)\n"));
//test.Getch();
#endif
iBuf.Format(_L("%S%S"),&aStr1,&aStr2);
}
void MPipe::Consume(const TDesC& aStr1,const TDesC& aStr2,const TDesC& aStr3)
{
#if defined(__TRACE__)
test.Printf(_L("MPipe::Consume(s,s,s)\n"));
//test.Getch();
#endif
iBuf.Format(_L("%S%S%S"),&aStr1,&aStr2,&aStr3);
}
void MPipe::Consume(const TDesC& aStr1,const TDesC& aStr2,const TDesC& aStr3,const TDesC& aStr4)
{
#if defined(__TRACE__)
test.Printf(_L("MPipe::Consume(s,s,s,s)\n"));
//test.Getch();
#endif
iBuf.Format(_L("%S%S%S%S"),&aStr1,&aStr2,&aStr3,&aStr4);
}
MProducer* TBase::Producer()
{
#if defined(__TRACE__)
test.Printf(_L("TBase::Producer\n"));
//test.Getch();
#endif
switch(Species())
{
case EProducer:
return((TProducer*)this);
case EPipe:
return((TPipe*)this);
default:
return(NULL);
}
}
MConsumer* TBase::Consumer()
{
#if defined(__TRACE__)
test.Printf(_L("TBase::Consumer\n"));
//test.Getch();
#endif
switch(Species())
{
case EConsumer:
return((TConsumer*)this);
case EPipe:
return((TPipe*)this);
default:
return(NULL);
}
}
TPtrC TProducer::Produce()
{
#if defined(__TRACE__)
test.Printf(_L("TProducer::Produce\n"));
//test.Getch();
#endif
return(_L("*"));
}
TSpecies TProducer::Species() const
{
#if defined(__TRACE__)
test.Printf(_L("TProducer::Species\n"));
//test.Getch();
#endif
return(EProducer);
}
TSpecies TConsumer::Species() const
{
#if defined(__TRACE__)
test.Printf(_L("TConsumer::Species\n"));
//test.Getch();
#endif
return(EConsumer);
}
void TConsumer::Consume(const TDesC& aStr)
{
#if defined(__TRACE__)
test.Printf(_L("TConsumer::Consume\n"));
//test.Getch();
#endif
test.Printf(_L("Consumed: %S\n"),&aStr);
}
TSpecies TPipe::Species() const
{
#if defined(__TRACE__)
test.Printf(_L("TPipe::Species\n"));
//test.Getch();
#endif
return(EPipe);
}
TSpecies TVirProducer::Species() const
{
#if defined(__TRACE__)
test.Printf(_L("TVirProducer::Species\n"));
//test.Getch();
#endif
return(EVirtual);
}
TPtrC TVirProducer::Produce()
{
#if defined(__TRACE__)
test.Printf(_L("TVirProducer::Produce\n"));
//test.Getch();
#endif
return(_L("*"));
}
TSpecies TVirConsumer::Species() const
{
#if defined(__TRACE__)
test.Printf(_L("TVirConsumer::Species\n"));
//test.Getch();
#endif
return(EVirtual);
};
MConsumer* TVirConsumer::Consumer()
{
#if defined(__TRACE__)
test.Printf(_L("TVirConsumer::Consumer\n"));
//test.Getch();
#endif
return(this);
}
void TVirConsumer::Consume(const TDesC& aStr)
{
#if defined(__TRACE__)
test.Printf(_L("TVirConsumer::Consume\n"));
//test.Getch();
#endif
test.Printf(_L("Consumed: %S\n"),&aStr);
}
TSpecies TVirPipe::Species() const
{
#if defined(__TRACE__)
test.Printf(_L("TVirPipe::Species\n"));
//test.Getch();
#endif
return(EVirtual);
};
MProducer* TVirPipe::Producer()
{
#if defined(__TRACE__)
test.Printf(_L("TVirPipe::Producer\n"));
//test.Getch();
#endif
return(this);
}
MConsumer* TVirPipe::Consumer()
{
#if defined(__TRACE__)
test.Printf(_L("TVirPipe::Consumer\n"));
//test.Getch();
#endif
return(this);
}
TPtrC TVirPipe::Produce()
{
#if defined(__TRACE__)
test.Printf(_L("TVirPipe::Produce\n"));
//test.Getch();
#endif
return(iBuf);
}
void TVirPipe::Consume(const TDesC& aStr)
{
#if defined(__TRACE__)
test.Printf(_L("TVirPipe::Consume(s)\n"));
//test.Getch();
#endif
iBuf=aStr;
}
void TVirPipe::Consume(const TDesC& aStr1,const TDesC& aStr2)
{
#if defined(__TRACE__)
test.Printf(_L("TVirPipe::Consume(s,s)\n"));
//test.Getch();
#endif
iBuf.Format(_L("%S%S"),&aStr1,&aStr2);
}
void TVirPipe::Consume(const TDesC& aStr1,const TDesC& aStr2,const TDesC& aStr3)
{
#if defined(__TRACE__)
test.Printf(_L("TVirPipe::Consume(s,s,s)\n"));
//test.Getch();
#endif
iBuf.Format(_L("%S%S%S"),&aStr1,&aStr2,&aStr3);
}
void TVirPipe::Consume(const TDesC& aStr1,const TDesC& aStr2,const TDesC& aStr3,const TDesC& aStr4)
{
#if defined(__TRACE__)
test.Printf(_L("TVirPipe::Consume(s,s,s,s)\n"));
//test.Getch();
#endif
iBuf.Format(_L("%S%S%S%S"),&aStr1,&aStr2,&aStr3,&aStr4);
}
LOCAL_C MProducer& Producer(TBase& aBase)
{
#if defined(__TRACE__)
test.Printf(_L("Producer(TBase&)\n"));
//test.Getch();
#endif
MProducer* prod=aBase.Producer();
test(prod!=NULL);
return(*prod);
}
LOCAL_C MConsumer& Consumer(TBase& aBase)
{
#if defined(__TRACE__)
test.Printf(_L("Consumer(TBase&)\n"));
//test.Getch();
#endif
MConsumer* cons=aBase.Consumer();
test(cons!=NULL);
return(*cons);
}
LOCAL_C void testCopy1(MConsumer& aConsumer,MProducer& aProducer)
//
// Copy a string from the producer to the consumer.
//
{
#if defined(__TRACE__)
test.Printf(_L("testCopy1()\n"));
//test.Getch();
#endif
aConsumer.Consume(aProducer.Produce());
}
LOCAL_C void testCopy2(MConsumer& aConsumer,MProducer& aProducer)
//
// Copy two strings from the producer to the consumer.
//
{
#if defined(__TRACE__)
test.Printf(_L("testCopy2()\n"));
//test.Getch();
#endif
TPtrC s1=aProducer.Produce();
TPtrC s2=aProducer.Produce();
aConsumer.Consume(s1,s2);
}
LOCAL_C void testCopy3(MConsumer& aConsumer,MProducer& aProducer)
//
// Copy three strings from the producer to the consumer.
//
{
#if defined(__TRACE__)
test.Printf(_L("testCopy3()\n"));
//test.Getch();
#endif
TPtrC s1=aProducer.Produce();
TPtrC s2=aProducer.Produce();
TPtrC s3=aProducer.Produce();
aConsumer.Consume(s1,s2,s3);
}
LOCAL_C void testCopy4(MConsumer& aConsumer,MProducer& aProducer)
//
// Copy four strings from the producer to the consumer.
//
{
#if defined(__TRACE__)
test.Printf(_L("testCopy4()\n"));
//test.Getch();
#endif
TPtrC s1=aProducer.Produce();
TPtrC s2=aProducer.Produce();
TPtrC s3=aProducer.Produce();
TPtrC s4=aProducer.Produce();
aConsumer.Consume(s1,s2,s3,s4);
}
LOCAL_C void testMulti()
//
// Test multiple inheritance without virtual bases.
//
{
#if defined(__TRACE__)
test.Printf(_L("testMulti()\n"));
//test.Getch();
#endif
test.Next(_L("without virtual base classes"));
//
TProducer prod;
TConsumer cons;
TPipe pipe;
testCopy1(Consumer(pipe),Producer(prod));
testCopy2(Consumer(cons),Producer(pipe));
//
testCopy3(Consumer(pipe),Producer(prod));
testCopy4(Consumer(cons),Producer(pipe));
//
testCopy4(Consumer(pipe),Producer(prod));
testCopy3(Consumer(cons),Producer(pipe));
//
testCopy2(Consumer(pipe),Producer(prod));
testCopy1(Consumer(cons),Producer(pipe));
}
LOCAL_C void testVirt()
//
// Test multiple inheritance with virtual bases.
//
{
#if defined(__TRACE__)
test.Printf(_L("testVirt()\n"));
//test.Getch();
#endif
test.Next(_L("with virtual base classes"));
//
TVirProducer prod;
TVirConsumer cons;
TVirPipe pipe;
testCopy1(Consumer(pipe),Producer(prod));
testCopy2(Consumer(cons),Producer(pipe));
//
testCopy3(Consumer(pipe),Producer(prod));
testCopy4(Consumer(cons),Producer(pipe));
//
testCopy4(Consumer(pipe),Producer(prod));
testCopy3(Consumer(cons),Producer(pipe));
//
testCopy2(Consumer(pipe),Producer(prod));
testCopy1(Consumer(cons),Producer(pipe));
}
GLDEF_C TInt E32Main()
//
// Test the multiple inheritance implementation.
//
{
#if defined(__TRACE__)
test.Printf(_L("E32Main()\n"));
//test.Getch();
#endif
test.Title();
//
test.Start(_L("Multiple Inheritance"));
testMulti();
//
testVirt();
//
test.End();
test.Close();
return(KErrNone);
}