1 // Copyright (c) 1995-2009 Nokia Corporation and/or its subsidiary(-ies).

     2 // All rights reserved.

     3 // This component and the accompanying materials are made available

     4 // under the terms of the License "Eclipse Public License v1.0"

     5 // which accompanies this distribution, and is available

     6 // at the URL "http://www.eclipse.org/legal/epl-v10.html".

     7 //

     8 // Initial Contributors:

     9 // Nokia Corporation - initial contribution.

    10 //

    11 // Contributors:

    12 //

    13 // Description:

    14 // e32test\buffer\t_varray.cpp

    15 // Overview:

    16 // Test variable record length array classes.

    17 // API Information:

    18 // CArrayVarFlat, CArrayVarSeg.

    19 // Details:

    20 // - Create an array of variable length text using a flat dynamic & segmented

    21 // buffer and verify that:

    22 // - number of elements held in the array is 0.

    23 // - array is compressed and reset as expected.

    24 // - the elements of the array are sorted as expected.

    25 // - insertion of a text character into the array at specified position 

    26 // and length of the array is as expected.

    27 // - return value is 0 when available element is searched using sequential 

    28 // search technique within the array.

    29 // - removal of first element from the array is successful.

    30 // - number of elements held in the array is 1 after appending a single 

    31 // element at the end of empty array.

    32 // - insertion of a single element with specified key is successful.

    33 // - the element is found when searched using binary search technique

    34 // - KErrAlreadyExists is returned if an element is inserted with the same 

    35 // key already exists within the array.

    36 // - Create an array of variable length text character implemented using a flat 

    37 // dynamic & segmented buffer.

    38 // - append some strings onto the end of the array, check the contents and 

    39 // number of elements held in the array are as expected.

    40 // - insert some strings and verify that the change in the content of array 

    41 // and number of elements held in the array are as expected.

    42 // - remove a single, multiple elements from the array and verify that the 

    43 // Delete method is as expected.

    44 // - Create an array of variable length text character contained within a flat 

    45 // dynamic & segmented buffer.

    46 // - append some strings of specified length onto the end of the array, compress 

    47 // the array and verify that the number of elements held in the array is as specified.

    48 // - insert a string at specified location, check the contents and reset the array.

    49 // - append some strings at the end, insert some strings at specified position, 

    50 // compress the array and verify that content, number of strings in the array 

    51 // are as expected.

    52 // - test that the number of elements and contents of the array are sorted as expected.

    53 // - verify the correct position of the element and return value is zero when 

    54 // an element is found using binary, sequential search technique and nonzero 

    55 // if not present in the array.

    56 // - insert some strings at the specified location and check that correct position

    57 // is returned when searched using binary search technique.

    58 // - Create an array of variable length integer contained within a flat dynamic &

    59 // segmented buffer.

    60 // - insert some elements with same key which is already present within the array 

    61 // and check that KErrAlreadyExists is returned. 

    62 // - Test whether the heap has been corrupted by all the tests.

    63 // Platforms/Drives/Compatibility:

    64 // All 

    65 // Assumptions/Requirement/Pre-requisites:

    66 // Failures and causes:

    67 // Base Port information:

    68 // 

    69 //

    70 

    71 #include <e32std.h>

    72 #include <e32std_private.h>

    73 #include <e32base.h>

    74 #include <e32base_private.h>

    75 #include <e32test.h>

    76 #include <e32svr.h>

    77 #include <e32ver.h>

    78 

    79 const TInt KTestGranularity=0x02;

    80 

    81 LOCAL_D RTest test(_L("T_VARRAY"));

    82 

    83 LOCAL_C void testAllMethods(CArrayVar<TText>& aVar)

    84     {

    85 	test.Next(_L("Test all methods"));

    86 	test(aVar.Count()==0);

    87 	aVar.Compress();

    88 	test(TRUE);

    89 	aVar.Reset();

    90 	test(TRUE);

    91 	TKeyArrayVar kk(sizeof(TText),ECmpNormal,0);

    92 	test(TRUE);

    93 	aVar.Sort(kk);

    94 	test(TRUE);

    95 	const TText* aa=_S("a");

    96 	aVar.InsertL(0,*aa,sizeof(TText));

    97 	test(aVar.Length(0)==sizeof(TText));

    98 	test(TRUE);

    99 	TInt pp;

   100 	test(aVar.Find(*aa,kk,pp)==0);

   101 	test(pp==0);

   102 	aVar.Delete(0);

   103 	aVar.AppendL(*aa,1);

   104 	test(aVar.Count()==1);

   105 	aVar.InsertIsqAllowDuplicatesL(*aa,0,kk);

   106 	test(TRUE);

   107 	test(aVar.FindIsq(*aa,kk,pp)==0);

   108 	test(pp==0);

   109 	TRAPD(r,aVar.InsertIsqL(*aa,0,kk));

   110 	test(r==KErrAlreadyExists);

   111     }

   112 

   113 LOCAL_C void test1(CArrayVar<TText>& aVar)

   114 //

   115 	{

   116 	test.Next(_L("AppendL and InsertL chars"));

   117 	aVar.AppendL(*_S("abcd"),5*sizeof(TText)); // abcd

   118 	TBuf<0x10> des1(&aVar[0]);

   119 	test(des1==_L("abcd"));

   120 	test(aVar.Count()==1);

   121 	aVar.AppendL(*_S("wxyz"),5*sizeof(TText)); // abcd wxyz

   122 	des1=&aVar[1];

   123 	test(des1==_L("wxyz"));

   124 	test(aVar.Count()==2);

   125 	aVar.InsertL(1,*_S("ef"),3*sizeof(TText)); // abcd ef wxyz

   126 	des1=&aVar[1];

   127 	test(des1==_L("ef"));

   128 	test(aVar.Count()==3);	

   129 	aVar.AppendL(*_S("z"),2*sizeof(TText)); // abcd ef wxyz z

   130 	des1=&aVar[3];

   131 	test(des1==_L("z"));

   132 	aVar.InsertL(0,*_S("y"),2*sizeof(TText)); // y abcd ef wxyz z

   133 	des1=&aVar[0];

   134 	test(des1==_L("y"));

   135 	test(aVar.Length(0)==2*sizeof(TText));

   136 	test(aVar.Length(1)==5*sizeof(TText));

   137 	test(aVar.Length(2)==3*sizeof(TText));

   138 	test(aVar.Length(3)==5*sizeof(TText));

   139 	test(aVar.Length(4)==2*sizeof(TText));

   140 	des1=&aVar[1];

   141 	test(des1==_L("abcd"));

   142 	test(aVar.Count()==5);

   143 //

   144 	test.Next(_L("Delete chars"));

   145 	aVar.Delete(3,1); // y abcd ef z

   146 	des1=&aVar[2];

   147 	test(des1==_L("ef"));

   148 	des1=&aVar[1];

   149 	test(des1==_L("abcd"));

   150 	des1=&aVar[3];

   151 	test(des1==_L("z"));

   152 	aVar.Delete(1,2); // y z

   153 	des1=&aVar[0];

   154 	test(des1==_L("y"));

   155 	des1=&aVar[1];

   156 	test(des1==_L("z"));

   157 	test(aVar.Count()==2);

   158 	}

   159 

   160 LOCAL_C void test2(CArrayVar<TText>& aVar)

   161 //

   162 	{

   163 	test.Next(_L("Reset and Compress"));

   164 	TBuf<0x10> des1(_L("abcde"));

   165 	TBuf<0x10> des2(_L("fgh"));

   166 	TBuf<0x10> des3(_L("wxyz"));

   167 	aVar.AppendL(*(TText*)des1.Ptr(),des1.Size());

   168 	aVar.AppendL(*(TText*)des2.Ptr(),des2.Size());

   169 	aVar.Compress();

   170 	test(aVar.Count()==2);

   171 	TPtrC des4((TText*)&aVar[0],des1.Length());

   172 	test(des1==des4);

   173 	TPtrC des5((TText*)&aVar[1],des2.Length());

   174 	test(des2==des5);

   175 	aVar.InsertL(1,*(TText*)des3.Ptr(),des3.Size());

   176 	test(aVar.Count()==3);	

   177 	TPtrC des6((TText*)&aVar[0],des1.Length());

   178 	test(des1==des6);

   179 	TPtrC des7((TText*)&aVar[2],des2.Length());

   180 	test(des2==des7);

   181 	TPtrC des8((TText*)&aVar[1],des3.Length());

   182 	test(des3==des8);

   183 	aVar.Reset();

   184 

   185 	TBuf<0x10> buf1=_L("abcdef");

   186 	TBuf<0x10> buf2=_L("wxyz");

   187 	TBuf<0x10> buf3=_L("lmnop");

   188 	TBuf<0x10> buf4=_L("aa");

   189 	aVar.AppendL(*buf1.Ptr(),buf1.Size());

   190 	aVar.InsertL(0,*buf2.Ptr(),buf2.Size());

   191 	aVar.AppendL(*buf3.Ptr(),buf3.Size());

   192 	aVar.InsertL(1,*buf4.Ptr(),buf4.Size());

   193 	aVar.Compress();

   194 	TPtrC rd1((TText*)&aVar[2],buf1.Length());

   195 	test(buf1==rd1);

   196 	TPtrC rd2((TText*)&aVar[0],buf2.Length());

   197 	test(buf2==rd2);

   198 	TPtrC rd3((TText*)&aVar[3],buf3.Length());

   199 	test(buf3==rd3);

   200 	TPtrC rd4((TText*)&aVar[1],buf4.Length());

   201 	test(buf4==rd4);

   202 	test(aVar.Count()==4);

   203 	

   204 	TKeyArrayVar kk(0,ECmpNormal,3);		// Compare 3 characters

   205 	TKeyArrayVar kk1(0,ECmpNormal,2);	// Compare 2 characters

   206 	test.Next(_L("Sort"));

   207 	aVar.Sort(kk);

   208 	TPtrC rd5((TText*)&aVar[1],buf1.Length());

   209 	test(buf1==rd5);

   210 	TPtrC rd6((TText*)&aVar[3],buf2.Length());

   211 	test(buf2==rd6);

   212 	TPtrC rd7((TText*)&aVar[2],buf3.Length());

   213 	test(buf3==rd7);

   214 	TPtrC rd8((TText*)&aVar[0],buf4.Length());

   215 	test(buf4==rd8);

   216 	test(aVar.Count()==4);	

   217 

   218 	test.Next(_L("Find and FindIsq"));

   219 	TBuf<0x10> buf5=_L("ffff");

   220 	test(aVar.InsertIsqL(*(TText*)buf5.Ptr(),buf5.Size(),kk)==2);

   221 	TRAPD(r,aVar.InsertIsqL(*(TText*)buf5.Ptr(),buf5.Size(),kk))

   222 	test(r==KErrAlreadyExists);

   223 	test(aVar.InsertIsqAllowDuplicatesL(*(TText*)buf5.Ptr(),buf5.Size(),kk)==3);

   224 	TInt aPos;

   225 	test(aVar.Find(*_S("abc"),kk,aPos)==0);	// Second parameter 'aLength' is unused. 

   226 	test(aPos==1);

   227 	test(aVar.Find(*_S("aa"),kk1,aPos)==0);

   228 	test(aPos==0);

   229 	test(aVar.Find(*_S("wxyz"),kk,aPos)==0);

   230 	test(aPos==5);

   231 	test(aVar.Find(*_S("fgh"),kk,aPos)!=0);		// Returns !=0 if string not found.

   232 	test(aPos==6);								// Not present in list, aPos set to last position

   233 	test(aVar.Find(*_S("ffff"),kk,aPos)==0);	

   234 	test(aPos==2);

   235 	test(aVar.Find(*_S("lmn"),kk,aPos)==0);

   236 	test(aPos==4);

   237 	test(aVar.FindIsq(*_S("abc"),kk,aPos)==0);

   238 	test(aPos==1);

   239 	test(aVar.FindIsq(*_S("aa"),kk1,aPos)==0);

   240 	test(aPos==0);

   241 	test(aVar.FindIsq(*_S("wxyz"),kk,aPos)==0);

   242 	test(aPos==5);

   243 	test(aVar.FindIsq(*_S("fgh"),kk,aPos)!=0);	// Returns result of last test

   244 	test(aPos==4);		  // Not present in list, aPos set to last position tested

   245 	TBuf<0x10> buf7=_L("fgh");

   246 	test(aVar.InsertIsqL(*(TText*)buf7.Ptr(),buf7.Size(),kk)==4);

   247 	test(aVar.FindIsq(*_S("fgh"),kk,aPos)==0);	// Returns result of last test

   248 	test(aPos==4);

   249 									

   250 	test(aVar.FindIsq(*_S("ffff"),kk,aPos)==0);

   251 	test(aPos==3);

   252 	test(aVar.FindIsq(*_S("lmn"),kk,aPos)==0);

   253 	test(aPos==5); 

   254 	}

   255 

   256 LOCAL_C void test3(CArrayVar<TInt>& aVar)

   257 	{

   258 

   259 	test.Next(_L("InsertIsqL"));

   260 	TKeyArrayVar kk(0,ECmpTInt);

   261 

   262 	TInt pos=0;

   263 	TInt mod=47;

   264 	TInt inc=23;

   265 

   266 	TInt i=0;	

   267 	FOREVER

   268 		{

   269 		TInt ret;

   270 		if (i&1)

   271 			TRAP(ret,aVar.InsertIsqL(i,sizeof(TInt),kk))

   272 		else

   273 			{

   274 			TRAP(ret,pos=aVar.InsertIsqL(i,sizeof(TInt),kk))

   275 			if (ret==KErrNone)

   276 				test(aVar[pos]==i);

   277 			}

   278 		if (ret==KErrAlreadyExists)

   279 			break;

   280 		i=(i+inc)%mod;

   281 		}

   282 	for(i=0;i<mod;i++)

   283 		{

   284 		pos=(-1);

   285 		test(aVar.FindIsq(i,kk,pos)==0);

   286 		test(pos==i);

   287 		TRAPD(r,aVar.InsertIsqL(i,sizeof(TInt),kk))

   288 		test(r==KErrAlreadyExists);

   289 		}

   290 	}

   291 

   292 GLDEF_C TInt E32Main()

   293 //

   294 // Test the variable record length array classes.

   295 //

   296     {

   297 

   298 	test.Title();

   299 	__UHEAP_MARK;

   300 	test.Start(_L("class CArrayFixFlat"));

   301 //

   302 	CArrayVarFlat<TText>* pVarFlat=new CArrayVarFlat<TText>(KTestGranularity);

   303 	if (pVarFlat==NULL)

   304 		test.Panic(_L("Allocating array"));

   305     testAllMethods(*pVarFlat);

   306     delete pVarFlat;

   307 //

   308 	CArrayVarFlat<TText>* pVarFlatChar=new CArrayVarFlat<TText>(KTestGranularity);

   309 	test1(*pVarFlatChar);

   310 	delete pVarFlatChar; 

   311 //		

   312 	CArrayVarFlat<TText>* pVarFlatArr=new CArrayVarFlat<TText>(KTestGranularity);

   313 	test2(*pVarFlatArr);

   314 	delete pVarFlatArr;

   315 //

   316 	CArrayVarFlat<TInt>* pVarFlatInt=new CArrayVarFlat<TInt>(KTestGranularity);

   317 	test3(*pVarFlatInt);

   318 	delete pVarFlatInt;

   319 //	

   320 	test.Next(_L("class CArrayVarSeg"));

   321 	CArrayVarSeg<TText>* pVarSeg=new CArrayVarSeg<TText>(KTestGranularity);

   322 	if (pVarSeg==NULL)

   323 		test.Panic(_L("Allocating array"));

   324 	testAllMethods(*pVarSeg);

   325 	delete pVarSeg;

   326 //

   327 	CArrayVarSeg<TText>* pVarSegChar=new CArrayVarSeg<TText>(KTestGranularity);

   328 	test1(*pVarSegChar);

   329 	delete pVarSegChar;

   330 //		

   331 	CArrayVarSeg<TText>* pVarSegArr=new CArrayVarSeg<TText>(KTestGranularity);

   332 	test2(*pVarSegArr);

   333 	delete pVarSegArr;

   334 //

   335 	CArrayVarSeg<TInt>* pVarSegInt=new CArrayVarSeg<TInt>(KTestGranularity);

   336 	test3(*pVarSegInt);

   337 	delete pVarSegInt;

   338 //

   339 	test.End();

   340 	__UHEAP_MARKEND;

   341 	return(0);

   342     }

   343