Merge further Compiler Compatibility fixes onto RCL_3 branch.
// Copyright (c) 1995-2009 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\buffer\t_parray.cpp
// Overview:
// Test the variable record length array classes.
// Test only covers the Flat type implementation.
// API Information:
// CArrayPakFlat.
// Details:
// - Create an array of variable length text character objects packed into a flat buffer.
// - check the number of elements held in the array is 0.
// - test that Compress and Reset methods are as expected.
// - sort the array and check that no error is returned.
// - insert an element and check the length is as expected.
// - search for the inserted element and check it is found successfully.
// - remove all the elements, append an element and verify that number of elements
// held in the array is 1.
// - insert an element into the array, search for that element using sequential,
// binary search technique and verify that it is found at the expected position.
// - insert another element with the same key and check that KErrAlreadyExists is
// returned.
// - Create an array of variable length text character objects packed into a flat buffer.
// - append some strings at the end, insert some strings at the specified location and
// verify that the length of each string and number of strings held in the array are
// as expected.
// - delete some strings and check the remaining strings in the array are as expected.
// - Create an array of variable length text character objects packed into a flat buffer.
// - append some strings at the end and insert some stings at specified location.
// - compress the array and verify strings and the number of strings held in the
// array are as expected.
// - reset the array and verify the number of elements held in the array is 0.
// - sort the array and check that array is sorted as expected.
// - test that KErrAlreadyExists is returned if another element with the same key
// type is inserted.
// - search for strings using sequential, binary search and verify that 0 is returned
// if found else nonzero.
// - delete some text from the array and check the results are as expected.
// - Create an array of variable length integer objects packed into a flat buffer.
// - Insert some elements with same key which already exists within the array and
// check that KErrAlreadyExists is returned.
// - Test whether the heap has been corrupted by all the tests.
// Platforms/Drives/Compatibility:
// All
// Assumptions/Requirement/Pre-requisites:
// Failures and causes:
// Base Port information:
//
//
#include <e32std.h>
#include <e32std_private.h>
#include <e32base.h>
#include <e32base_private.h>
#include <e32test.h>
#include <e32svr.h>
#include <e32ver.h>
const TInt KTestGranularity=0x10;
LOCAL_D RTest test(_L("T_PARRAY"));
LOCAL_C void testAllMethods(CArrayPak<TText>& aPakVar)
{
test.Next(_L("Test all methods"));
test(aPakVar.Count()==0);
aPakVar.Compress();
test(TRUE);
aPakVar.Reset();
test(TRUE);
TKeyArrayPak kk(sizeof(TText),ECmpNormal,0);
TKeyArrayVar vv(sizeof(TText),ECmpNormal,0);
test(TRUE);
TRAPD(res,aPakVar.SortL(vv));
test(res==KErrNone);
const TText* aa=_S("a");
aPakVar.InsertL(0,*aa,sizeof(TText));
TBuf<0x10> des1(1);
des1[0]=aPakVar[0];
test(des1==_L("a"));
test(aPakVar.Length(0)==sizeof(TText));
test(TRUE);
TInt pp;
test(aPakVar.Find(*aa,kk,pp)==0);
test(pp==0);
aPakVar.Delete(0);
aPakVar.AppendL(*aa,1);
test(aPakVar.Count()==1);
aPakVar.InsertIsqAllowDuplicatesL(*aa,0,kk);
test(TRUE);
test(aPakVar.FindIsq(*aa,kk,pp)==0);
test(pp==0);
TRAPD(r,aPakVar.InsertIsqL(*aa,0,kk));
test(r==KErrAlreadyExists);
}
LOCAL_C void test1(CArrayPak<TText>& aPakVar)
//
{
test.Next(_L("AppendL and InsertL chars"));
aPakVar.AppendL(*_S("abcd"),5*sizeof(TText)); // abcd
TBuf<0x10> des1(&aPakVar[0]);
test(des1==_L("abcd"));
test(aPakVar.Count()==1);
aPakVar.AppendL(*_S("wxyz"),5*sizeof(TText)); // abcd wxyz
des1=&aPakVar[1];
test(des1==_L("wxyz"));
test(aPakVar.Count()==2);
aPakVar.InsertL(1,*_S("ef"),3*sizeof(TText)); // abcd ef wxyz
des1=&aPakVar[1];
test(des1==_L("ef"));
test(aPakVar.Count()==3);
aPakVar.AppendL(*_S("z"),2*sizeof(TText)); // abcd ef wxyz z
des1=&aPakVar[3];
test(des1==_L("z"));
aPakVar.InsertL(0,*_S("y"),2*sizeof(TText)); // y abcd ef wxyz z
des1=&aPakVar[0];
test(des1==_L("y"));
test(aPakVar.Length(0)==2*sizeof(TText));
test(aPakVar.Length(1)==5*sizeof(TText));
test(aPakVar.Length(2)==3*sizeof(TText));
test(aPakVar.Length(3)==5*sizeof(TText));
test(aPakVar.Length(4)==2*sizeof(TText));
des1=&aPakVar[1];
test(des1==_L("abcd"));
test(aPakVar.Count()==5);
//
test.Next(_L("Delete chars"));
aPakVar.Delete(3,1); // y abcd ef z
des1=&aPakVar[2];
test(des1==_L("ef"));
des1=&aPakVar[1];
test(des1==_L("abcd"));
des1=&aPakVar[3];
test(des1==_L("z"));
aPakVar.Delete(1,2); // y z
des1=&aPakVar[0];
test(des1==_L("y"));
des1=&aPakVar[1];
test(des1==_L("z"));
test(aPakVar.Count()==2);
}
LOCAL_C void test2(CArrayPak<TText>& aPakVar)
//
{
test.Next(_L("Reset and Compress"));
TBuf<0x10> des1(_L("abcde"));
TBuf<0x10> des2(_L("fgh"));
TBuf<0x10> des3(_L("wxyz"));
aPakVar.AppendL(*(TText*)des1.Ptr(),des1.Size());
aPakVar.AppendL(*(TText*)des2.Ptr(),des2.Size());
aPakVar.Compress();
test(aPakVar.Count()==2);
TPtrC des4((TText*)&aPakVar[0],des1.Length());
test(des1==des4);
TPtrC des5((TText*)&aPakVar[1],des2.Length());
test(des2==des5);
aPakVar.InsertL(1,*(TText*)des3.Ptr(),des3.Size());
test(aPakVar.Count()==3);
TPtrC des6((TText*)&aPakVar[0],des1.Length());
test(des1==des6);
TPtrC des7((TText*)&aPakVar[2],des2.Length());
test(des2==des7);
TPtrC des8((TText*)&aPakVar[1],des3.Length());
test(des3==des8);
aPakVar.Reset();
// So nothing in this array
test(aPakVar.Count()==0);
TKeyArrayPak kk(0,ECmpNormal,3); // Compare 3 characters
TKeyArrayPak kk1(0,ECmpNormal,2); // Compare 2 characters
TKeyArrayVar vv(0,ECmpNormal,3); // Compare 3 characters
TBuf<0x10> buf1=_L("abcdef");
TBuf<0x10> buf2=_L("wxyz");
TBuf<0x10> buf3=_L("lmnop");
TBuf<0x10> buf4=_L("aa");
aPakVar.AppendL(*buf1.Ptr(),buf1.Size());
aPakVar.InsertL(0,*buf2.Ptr(),buf2.Size());
aPakVar.AppendL(*buf3.Ptr(),buf3.Size());
aPakVar.InsertL(1,*buf4.Ptr(),buf4.Size());
aPakVar.Compress();
TPtrC rd1((TText*)&aPakVar[2],buf1.Length());
test(buf1==rd1);
TPtrC rd2((TText*)&aPakVar[0],buf2.Length());
test(buf2==rd2);
TPtrC rd3((TText*)&aPakVar[3],buf3.Length());
test(buf3==rd3);
TPtrC rd4((TText*)&aPakVar[1],buf4.Length());
test(buf4==rd4);
test(aPakVar.Count()==4);
test.Next(_L("Sort"));
TRAPD(res,aPakVar.SortL(vv));
test(res==KErrNone);
/**/
TPtrC rd5((TText*)&aPakVar[1],buf1.Length());
test(buf1==rd5);
TPtrC rd6((TText*)&aPakVar[3],buf2.Length());
test(buf2==rd6);
TPtrC rd7((TText*)&aPakVar[2],buf3.Length());
test(buf3==rd7);
TPtrC rd8((TText*)&aPakVar[0],buf4.Length());
test(buf4==rd8);
test(aPakVar.Count()==4);
/**/
test.Next(_L("Find and FindIsq"));
TBuf<0x10> buf5=_L("ffff");
test(aPakVar.InsertIsqL(*(TText*)buf5.Ptr(),buf5.Size(),kk)==2);
TRAPD(r,aPakVar.InsertIsqL(*(TText*)buf5.Ptr(),buf5.Size(),kk))
test(r==KErrAlreadyExists);
test(aPakVar.InsertIsqAllowDuplicatesL(*(TText*)buf5.Ptr(),buf5.Size(),kk)==3);
TInt aPos;
test(aPakVar.Find(*_S("abc"),kk,aPos)==0); // Second parameter 'aLength' is unused.
test(aPos==1);
test(aPakVar.Find(*_S("aa"),kk1,aPos)==0);
test(aPos==0);
test(aPakVar.Find(*_S("wxyz"),kk,aPos)==0);
test(aPos==5);
test(aPakVar.Find(*_S("fgh"),kk,aPos)!=0); // Returns non zero if string not found.
test(aPos==6); // Not present in list, aPos set to last position
test(aPakVar.Find(*_S("ffff"),kk,aPos)==0);
test(aPos==2);
test(aPakVar.Find(*_S("lmn"),kk,aPos)==0);
test(aPos==4); //15
test(aPakVar.FindIsq(*_S("abc"),kk,aPos)==0);
test(aPos==1);
test(aPakVar.FindIsq(*_S("aa"),kk1,aPos)==0);
test(aPos==0);
test(aPakVar.FindIsq(*_S("wxyz"),kk,aPos)==0);
test(aPakVar.FindIsq(*_S("fgh"),kk,aPos)!=0); // 22 Returns result of last test
test(aPos==4); // Not present in list, aPos set to last position tested
//This test shows problem with BinarySearch
TBuf<0x10> buf7=_L("fghij");
test(aPakVar.InsertIsqL(*(TText*)buf7.Ptr(),buf7.Size(),kk)==4);
test(aPakVar.FindIsq(*_S("fgh"),kk,aPos)==0); // Returns result of last test
test(aPos==4);
test(aPakVar.FindIsq(*_S("ffff"),kk,aPos)==0);
test(aPos==3);
test(aPakVar.FindIsq(*_S("lmn"),kk,aPos)==0);
test(aPos==5);
aPakVar.Delete(4,1);
test(aPakVar.Find(*_S("wxyz"),kk,aPos)==0);
test(aPos==5);
}
LOCAL_C void test3(CArrayPak<TInt>& aPak)
{
test.Next(_L("InsertIsqL"));
TKeyArrayPak kk(0,ECmpTInt);
TInt pos=0;
TInt mod=47;
TInt inc=23;
TInt i=0;
FOREVER
{
TInt ret;
if (i&1)
TRAP(ret,aPak.InsertIsqL(i,sizeof(TInt),kk))
else
{
TRAP(ret,pos=aPak.InsertIsqL(i,sizeof(TInt),kk))
if (ret==KErrNone)
test(aPak[pos]==i);
}
if (ret==KErrAlreadyExists)
break;
i=(i+inc)%mod;
}
for(i=0;i<mod;i++)
{
pos=(-1);
test(aPak.FindIsq(i,kk,pos)==0);
test(pos==i);
TRAPD(r,aPak.InsertIsqL(i,sizeof(TInt),kk))
test(r==KErrAlreadyExists);
}
}
GLDEF_C TInt E32Main()
//
// Test the variable record length array classes.
// Initially test only covers the Flat type implementation.
//
{
test.Title();
__UHEAP_MARK;
test.Start(_L("class CArrayPakFlat"));
//
CArrayPakFlat<TText>* pPakFlat=new CArrayPakFlat<TText>(KTestGranularity);
testAllMethods(*pPakFlat);
delete pPakFlat;
//
CArrayPakFlat<TText>* pPakFlatChar=new CArrayPakFlat<TText>(KTestGranularity);
test1(*pPakFlatChar);
delete pPakFlatChar;
//
CArrayPakFlat<TText>* pPakFlatArr=new CArrayPakFlat<TText>(KTestGranularity);
test2(*pPakFlatArr);
delete pPakFlatArr;
//
CArrayPakFlat<TInt>* pPakFlatInt=new CArrayPakFlat<TInt>(KTestGranularity);
test3(*pPakFlatInt);
delete pPakFlatInt;
//
test.End();
__UHEAP_MARKEND;
return(0);
}