// Copyright (c) 1994-2009 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\smpl_arr.cpp
//
//
#include <e32test.h>
#include <e32math.h>
#include <e32std.h>
#include <e32std_private.h>
#define NUM_TESTS 200
GLREF_D RTest test;
GLREF_C TInt Random();
struct SEntry
{
TInt iKey;
TInt iValue;
inline TBool operator!=(const SEntry& anEntry) const
{return (iValue!=anEntry.iValue || iKey!=anEntry.iKey);}
inline TBool operator==(const SEntry& anEntry) const
{return (iValue==anEntry.iValue && iKey==anEntry.iKey);}
};
struct SArray
{
TInt iCount;
TAny* iEntries;
TInt iEntrySize;
TInt iKeyOffset;
TInt iAllocated;
TInt iGranularity;
};
GLREF_C TInt OrderSEntry(const SEntry& aLeft, const SEntry& aRight);
GLREF_C TInt OrderSEntryU(const SEntry& aLeft, const SEntry& aRight);
GLREF_C TInt OrderSEntry2(const SEntry& aLeft, const SEntry& aRight);
GLREF_C TInt OrderSEntryU2(const SEntry& aLeft, const SEntry& aRight);
GLREF_C TBool CompareSEntryByKeyKey(const TInt* aKey, const SEntry& aRight);
GLREF_C TBool CompareSEntryByKeyValue(const TInt* aValue, const SEntry& aRight);
GLREF_D TLinearOrder<TInt64> Int64Order;
GLREF_D TIdentityRelation<TInt64> Int64Identity;
GLREF_D TLinearOrder<SEntry> SEntryOrder;
GLREF_D TIdentityRelation<SEntry> SEntryKeyIdentity;
GLREF_D TIdentityRelation<SEntry> SEntryIdentity;
LOCAL_C TInt64 Random64(TInt64& aMask)
{
TInt64 x = MAKE_TINT64(Random()&I64HIGH(aMask), Random()&I64LOW(aMask));
return x;
}
LOCAL_C TInt IntAppendAndAccessTest(TInt aCount, TInt aNumTests, TInt64 aMask)
{
TInt n;
for (n=0; n<aNumTests; n++)
{
RArray<TInt64> a(aCount);
TInt64 *pA=new TInt64[aCount];
if (!pA)
{
a.Close();
return -65535;
}
TInt i;
for (i=0; i<aCount; i++)
{
TInt64 x=Random64(aMask);
pA[i]=x;
a.Append(x);
}
if (a.Count()!=aCount)
{
a.Close();
return -1;
}
for (i=0; i<aCount; i++)
{
if (a[i]!=pA[i])
{
a.Close();
return -2;
}
pA[i]=Random64(aMask);
a[i]=pA[i];
}
if (a.Count()!=aCount)
{
a.Close();
return -3;
}
for (i=0; i<aCount; i++)
{
if (a[i]!=pA[i])
{
a.Close();
return -4;
}
}
delete[] pA;
a.Close();
}
return KErrNone;
}
LOCAL_C TInt IntRemoveTest()
{
TInt m=32;
TInt n=m*m+1;
RArray<TInt64> a(n);
TInt i;
for (i=0; i<n; i++)
{
TInt64 x = MAKE_TINT64(i*i,i);
a.Append(x);
}
TInt p=2;
for (i=2; i<=m; i++)
{
TInt j;
for (j=0; j<(2*i-2); j++)
{
a.Remove(p);
}
p++;
}
if (a.Count()!=m+1)
{
a.Close();
return -1;
}
for (i=0; i<m; i++)
{
TInt64 x = MAKE_TINT64(i*i*i*i,i*i);
if (a[i]!=x)
{
a.Close();
return -2;
}
}
a.Close();
return KErrNone;
}
LOCAL_C TInt IntFindTest(TInt aCount, TInt aNumTests, TInt64 aMask)
{
TInt n;
for (n=0; n<aNumTests; n++)
{
RArray<TInt64> a(aCount);
TInt64 *pA=new TInt64[aCount];
if (!pA)
{
a.Close();
return -65535;
}
TInt i;
for (i=0; i<aCount; i++)
{
pA[i]=Random64(aMask);
a.Append(pA[i]);
}
if (a.Count()!=aCount)
{
a.Close();
return -1;
}
for (i=0; i<aCount; i++)
{
TInt r=a.Find(pA[i],Int64Identity);
if (r<0 || pA[i]!=pA[r] || r>i)
{
a.Close();
return -2;
}
}
delete[] pA;
a.Close();
}
return KErrNone;
}
template <class XTestInput>
LOCAL_C TInt FindWithEqualityOp(XTestInput &aObject1, XTestInput &aObject2)
{
//Construct a suitable RArray
RArray<XTestInput> testRArray;
//Append the test objects to the RArray
testRArray.AppendL(aObject1);
testRArray.AppendL(aObject2);
testRArray.AppendL(aObject1);
testRArray.AppendL(aObject2);
//Demonstrate that "regular" Find() method returns incorrect result
TInt pos = KErrNotFound;
pos = testRArray.Find(aObject1);
if(pos!=0)
return KErrNotFound;
pos = testRArray.Find(aObject2);
if(pos!=0)
return KErrNotFound;
//Test the Find() method using TIdentityRelation default CTOR
pos = testRArray.Find(aObject1, TIdentityRelation<XTestInput>());
if(pos!=0)
return KErrNotFound;
pos = testRArray.Find(aObject2, TIdentityRelation<XTestInput>());
if(pos!=1)
return KErrNotFound;
//Test the FindReverse() method using TIdentityRelation default CTOR
pos = testRArray.FindReverse(aObject1, TIdentityRelation<XTestInput>());
if(pos!=2)
return KErrNotFound;
pos = testRArray.FindReverse(aObject2, TIdentityRelation<XTestInput>());
if(pos!=3)
return KErrNotFound;
//Objects have been found correctly if this point reached
testRArray.Close();
return KErrNone;
}
LOCAL_C TInt FindWithEqualityOpTest()
{
//Test "complex" objects which would work incorrectly with the regular Find() method
TPoint p1(0,0);
TPoint p2(0,1);
TPoint p3(0,2);
test(FindWithEqualityOp(p1, p2) == KErrNone);
TRect rect1(p1,p2);
TRect rect2(p1,p3);
test(FindWithEqualityOp(rect1, rect2) == KErrNone);
TBuf<5> buf1(_L("test1"));
TBuf<5> buf2(_L("test2"));
test(FindWithEqualityOp(buf1, buf2) == KErrNone);
return KErrNone;
}
LOCAL_C TInt EntryFindTest(TInt aCount, TInt aNumTests)
{
TInt n;
for (n=0; n<aNumTests; n++)
{
RArray<SEntry> a(aCount,0); // keyed on iKey
RArray<SEntry> b(aCount,4); // keyed on iValue
SEntry *pE=new SEntry[aCount];
if (!pE)
{
a.Close();
b.Close();
return -65535;
}
TInt i;
for (i=0; i<aCount; i++)
{
pE[i].iValue=Random();
pE[i].iKey=Random();
a.Append(pE[i]);
b.Append(pE[i]);
}
if (a.Count()!=aCount)
{
a.Close();
b.Close();
return -1;
}
if (b.Count()!=aCount)
{
a.Close();
b.Close();
return -1;
}
for (i=0; i<aCount; i++)
{
SEntry e1=pE[i];
SEntry e2=pE[i];
e2.iValue=~e2.iValue;
SEntry e3=pE[i];
e3.iKey=~e3.iKey;
TInt r=a.Find(e1);
if (r!=i)
{
a.Close();
b.Close();
return -2;
}
r=a.Find(e2);
if (r!=i)
{
a.Close();
b.Close();
return -3;
}
r=a.Find(e3);
if (r>=0 && pE[r].iKey!=e3.iKey)
{
a.Close();
b.Close();
return -4;
}
r=b.Find(e1);
if (r!=i)
{
a.Close();
b.Close();
return -5;
}
r=b.Find(e3);
if (r!=i)
{
a.Close();
b.Close();
return -6;
}
r=b.Find(e2);
if (r>=0 && pE[r].iValue!=e3.iValue)
{
a.Close();
b.Close();
return -7;
}
r=a.Find(e1,SEntryIdentity);
if (r!=i)
{
a.Close();
b.Close();
return -8;
}
r=a.Find(e2,SEntryIdentity);
if (r>=0 && pE[r]!=e3)
{
a.Close();
b.Close();
return -9;
}
r=a.Find(e3,SEntryIdentity);
if (r>=0 && pE[r]!=e3)
{
a.Close();
b.Close();
return -10;
}
r=b.Find(e1,SEntryIdentity);
if (r!=i)
{
a.Close();
b.Close();
return -11;
}
r=b.Find(e3,SEntryIdentity);
if (r>=0 && pE[r]!=e3)
{
a.Close();
b.Close();
return -12;
}
r=b.Find(e2,SEntryIdentity);
if (r>=0 && pE[r]!=e3)
{
a.Close();
b.Close();
return -13;
}
r=a.Find(e1.iValue,CompareSEntryByKeyValue);
if (r!=i)
{
a.Close();
b.Close();
return -14;
}
r=a.Find(e2.iValue,CompareSEntryByKeyValue);
if (r>=0 && pE[r].iValue!=e2.iValue)
{
a.Close();
b.Close();
return -15;
}
r=b.Find(e1.iKey,CompareSEntryByKeyKey);
if (r!=i)
{
a.Close();
b.Close();
return -16;
}
r=b.Find(e3.iKey,CompareSEntryByKeyKey);
if (r>=0 && pE[r].iKey!=e3.iKey)
{
a.Close();
b.Close();
return -17;
}
}
delete[] pE;
a.Close();
b.Close();
}
return KErrNone;
}
LOCAL_C TInt IntFindReverseTest(TInt aCount, TInt aNumTests, TInt64 aMask)
{
TInt n;
for (n=0; n<aNumTests; n++)
{
RArray<TInt64> a(aCount);
TInt64 *pA=new TInt64[aCount];
if (!pA)
{
a.Close();
return -65535;
}
TInt i;
for (i=0; i<aCount; i++)
{
pA[i]=Random64(aMask);
a.Append(pA[i]);
}
if (a.Count()!=aCount)
{
a.Close();
return -1;
}
for (i=0; i<aCount; i++)
{
TInt r=a.FindReverse(pA[i],Int64Identity);
if (pA[i]!=pA[r] || r<i)
{
a.Close();
return -2;
}
}
delete[] pA;
a.Close();
}
return KErrNone;
}
LOCAL_C TInt EntryFindReverseTest(TInt aCount, TInt aNumTests)
{
TInt n;
for (n=0; n<aNumTests; n++)
{
RArray<SEntry> a(aCount,0); // keyed on iKey
RArray<SEntry> b(aCount,4); // keyed on iValue
SEntry *pE=new SEntry[aCount];
if (!pE)
{
a.Close();
b.Close();
return -65535;
}
TInt i;
for (i=0; i<aCount; i++)
{
pE[i].iValue=Random();
pE[i].iKey=Random();
a.Append(pE[i]);
b.Append(pE[i]);
}
if (a.Count()!=aCount)
{
a.Close();
b.Close();
return -1;
}
if (b.Count()!=aCount)
{
a.Close();
b.Close();
return -1;
}
for (i=0; i<aCount; i++)
{
SEntry e1=pE[i];
SEntry e2=pE[i];
e2.iValue=~e2.iValue;
SEntry e3=pE[i];
e3.iKey=~e3.iKey;
TInt r=a.FindReverse(e1);
if (r!=i)
{
a.Close();
b.Close();
return -2;
}
r=a.FindReverse(e2);
if (r!=i)
{
a.Close();
b.Close();
return -3;
}
r=a.FindReverse(e3);
if (r>=0 && pE[r].iKey!=e3.iKey)
{
a.Close();
b.Close();
return -4;
}
r=b.FindReverse(e1);
if (r!=i)
{
a.Close();
b.Close();
return -5;
}
r=b.FindReverse(e3);
if (r!=i)
{
a.Close();
b.Close();
return -6;
}
r=b.FindReverse(e2);
if (r>=0 && pE[r].iValue!=e3.iValue)
{
a.Close();
b.Close();
return -7;
}
r=a.FindReverse(e1,SEntryIdentity);
if (r!=i)
{
a.Close();
b.Close();
return -8;
}
r=a.FindReverse(e2,SEntryIdentity);
if (r>=0 && pE[r]!=e3)
{
a.Close();
b.Close();
return -9;
}
r=a.FindReverse(e3,SEntryIdentity);
if (r>=0 && pE[r]!=e3)
{
a.Close();
b.Close();
return -10;
}
r=b.FindReverse(e1,SEntryIdentity);
if (r!=i)
{
a.Close();
b.Close();
return -11;
}
r=b.FindReverse(e3,SEntryIdentity);
if (r>=0 && pE[r]!=e3)
{
a.Close();
b.Close();
return -12;
}
r=b.FindReverse(e2,SEntryIdentity);
if (r>=0 && pE[r]!=e3)
{
a.Close();
b.Close();
return -13;
}
r=a.FindReverse(e1.iValue,CompareSEntryByKeyValue);
if (r!=i)
{
a.Close();
b.Close();
return -14;
}
r=a.FindReverse(e2.iValue,CompareSEntryByKeyValue);
if (r>=0 && pE[r].iValue!=e2.iValue)
{
a.Close();
b.Close();
return -15;
}
r=b.FindReverse(e1.iKey,CompareSEntryByKeyKey);
if (r!=i)
{
a.Close();
b.Close();
return -16;
}
r=b.FindReverse(e3.iKey,CompareSEntryByKeyKey);
if (r>=0 && pE[r].iKey!=e3.iKey)
{
a.Close();
b.Close();
return -17;
}
}
delete[] pE;
a.Close();
b.Close();
}
return KErrNone;
}
LOCAL_C TInt IntFindInOrderTest(TInt aCount, TInt aNumTests, TInt64 aMask)
// require aRange*aCount<2^32
{
TInt n;
for (n=0; n<aNumTests; n++)
{
RArray<TInt64> a(aCount);
TInt64 *pA=new TInt64[aCount];
if (!pA)
{
a.Close();
return -65535;
}
TInt i=0;
TInt64 y=-256;
for(i=0; i<aCount; i++)
{
TInt64 x=Random64(aMask); // this is always >=0
pA[i]=y;
a.Append(y);
y+=x;
}
if (a.Count()!=aCount)
{
a.Close();
return -1;
}
for (i=0; i<aCount; i++)
{
TInt r=a.FindInOrder(pA[i],Int64Order);
if (r<0 || pA[r]!=pA[i])
{
a.Close();
return -2;
}
TInt64 x=Random64(aMask);
r=a.FindInOrder(x,Int64Order);
if (r<0)
{
TInt j;
for (j=0; j<aCount; j++)
{
if (pA[j]==x)
{
a.Close();
return -3;
}
}
}
else if (pA[r]!=x)
{
a.Close();
return -4;
}
}
delete[] pA;
a.Close();
}
return KErrNone;
}
LOCAL_C TInt EntryFindInOrderTest(TInt aCount, TInt aNumTests)
// require aRange*aCount<2^32
{
TInt n;
for (n=0; n<aNumTests; n++)
{
RArray<SEntry> a(aCount,0); // keyed on iKey
RArray<SEntry> b(aCount,4); // keyed on iValue
SEntry *pE=new SEntry[aCount];
SEntry *pF=new SEntry[aCount];
if (!pE || !pF)
{
a.Close();
b.Close();
return -65535;
}
TInt i=0;
for(i=0; i<aCount; i++)
{
pE[i].iKey=i*19;
pE[i].iValue=Random();
a.Append(pE[i]);
pF[i].iKey=Random();
pF[i].iValue=i*i;
b.Append(pF[i]);
}
if (a.Count()!=aCount)
{
a.Close();
b.Close();
return -1;
}
if (b.Count()!=aCount)
{
a.Close();
b.Close();
return -2;
}
for (i=0; i<aCount; i++)
{
TInt r=a.FindInSignedKeyOrder(pE[i]);
if (r!=i)
{
a.Close();
b.Close();
return -2;
}
r=b.FindInSignedKeyOrder(pF[i]);
if (r!=i)
{
a.Close();
b.Close();
return -3;
}
TInt x=Random()&1023;
SEntry e;
e.iKey=x;
r=a.FindInSignedKeyOrder(e);
if (r<0)
{
if (x%19==0)
{
a.Close();
b.Close();
return -4;
}
}
else if (x!=r*19)
{
a.Close();
b.Close();
return -5;
}
TInt z=8+(Random()&127);
TInt y=Random()&15;
x=z*z+y;
e.iKey=-2;
e.iValue=x;
r=b.FindInSignedKeyOrder(e);
if (r<0)
{
if (y==0 && z<aCount)
{
a.Close();
b.Close();
return -6;
}
}
else if (y!=0)
{
a.Close();
b.Close();
return -7;
}
}
delete[] pE;
delete[] pF;
a.Close();
b.Close();
}
return KErrNone;
}
LOCAL_C TInt IntInsertInOrderTest(TInt aCount, TInt aNumTests, TInt64 aMask)
{
TInt n;
for (n=0; n<aNumTests; n++)
{
RArray<TInt64> a(aCount);
RArray<TInt64> b(aCount);
RArray<TInt64> c(aCount);
TInt i;
TInt cc=0;
for (i=0; i<aCount; i++)
{
TInt64 x=Random64(aMask);
a.Append(x);
b.InsertInOrderAllowRepeats(x,Int64Order);
TInt r=c.InsertInOrder(x,Int64Order);
if (r==KErrNone)
cc++;
}
if (a.Count()!=aCount)
{
a.Close();
b.Close();
c.Close();
return -1;
}
if (b.Count()!=aCount)
{
a.Close();
b.Close();
c.Close();
return -2;
}
for (i=0; i<aCount-1; i++)
{
if (b[i]>b[i+1])
{
a.Close();
b.Close();
c.Close();
return -3;
}
}
for (i=0; i<aCount; i++)
{
if (a.Find(b[i],Int64Identity)<0)
{
a.Close();
b.Close();
c.Close();
return -4;
}
if (b.Find(a[i],Int64Identity)<0)
{
a.Close();
b.Close();
c.Close();
return -5;
}
if (c.Find(a[i],Int64Identity)<0)
{
a.Close();
b.Close();
c.Close();
return -6;
}
}
if (c.Count()!=cc)
{
a.Close();
b.Close();
c.Close();
return -7;
}
for (i=0; i<c.Count()-1; i++)
{
if (c[i]>=c[i+1])
{
a.Close();
b.Close();
c.Close();
return -8;
}
if (a.Find(c[i],Int64Identity)<0)
{
a.Close();
b.Close();
c.Close();
return -9;
}
}
a.Close();
b.Close();
c.Close();
}
return KErrNone;
}
LOCAL_C TInt EntryInsertInOrderTest()
{
RArray<SEntry> a1(1024,0); // keyed on iKey
RArray<SEntry> a2(1024,0); // keyed on iKey
RArray<SEntry> b1(1024,4); // keyed on iValue
RArray<SEntry> b2(1024,4); // keyed on iValue
RArray<SEntry> c1(1024,0); // keyed on iKey
RArray<SEntry> c2(1024,0); // keyed on iKey
RArray<SEntry> d1(1024,4); // keyed on iValue
RArray<SEntry> d2(1024,4); // keyed on iValue
TInt i;
for (i=0; i<1024; i++)
{
SEntry e;
e.iValue=i-512;
e.iKey=(i&31)-16;
a1.InsertInSignedKeyOrderAllowRepeats(e);
a2.InsertInSignedKeyOrder(e);
b1.InsertInSignedKeyOrderAllowRepeats(e);
b2.InsertInSignedKeyOrder(e);
c1.InsertInUnsignedKeyOrderAllowRepeats(e);
c2.InsertInUnsignedKeyOrder(e);
d1.InsertInUnsignedKeyOrderAllowRepeats(e);
d2.InsertInUnsignedKeyOrder(e);
}
if (a1.Count()!=1024)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -1;
}
if (b1.Count()!=1024)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -2;
}
if (c1.Count()!=1024)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -3;
}
if (d1.Count()!=1024)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -4;
}
for (i=0; i<1024; i++)
{
SEntry e=a1[i];
if (e.iKey!=(i>>5)-16)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -5;
}
if ( e.iValue!=(((i&31)<<5 | (i>>5))-512) )
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -6;
}
e=b1[i];
if (e.iKey!=((i&31)-16))
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -7;
}
if ( e.iValue!=(i-512) )
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -8;
}
e=c1[i];
TInt j=i>>5;
j^=16;
j=((i&31)<<5)|j;
SEntry f;
f.iValue=j-512;
f.iKey=(j&31)-16;
if (e.iKey!=f.iKey)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -9;
}
if (e.iValue!=f.iValue)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -10;
}
e=d1[i];
j=i^512;
f.iValue=j-512;
f.iKey=(j&31)-16;
if (e.iKey!=f.iKey)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -11;
}
if (e.iValue!=f.iValue)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -12;
}
}
if (a2.Count()!=32)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -13;
}
if (b2.Count()!=1024)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -14;
}
if (c2.Count()!=32)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -15;
}
if (d2.Count()!=1024)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -16;
}
for (i=0; i<1024; i++)
{
SEntry e=b2[i];
if (e.iKey!=((i&31)-16))
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -17;
}
if ( e.iValue!=(i-512) )
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -18;
}
e=d2[i];
TInt j=i^512;
SEntry f;
f.iValue=j-512;
f.iKey=(j&31)-16;
if (e.iKey!=f.iKey)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -19;
}
if (e.iValue!=f.iValue)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -20;
}
}
for (i=0; i<31; i++)
{
SEntry e=a2[i];
TInt j=i;
SEntry f;
f.iValue=j-512;
f.iKey=(j&31)-16;
if (e.iKey!=f.iKey)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -21;
}
if (e.iValue!=f.iValue)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -22;
}
e=c2[i];
j=i^16;
f.iValue=j-512;
f.iKey=(j&31)-16;
if (e.iKey!=f.iKey)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -23;
}
if (e.iValue!=f.iValue)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -24;
}
}
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return KErrNone;
}
LOCAL_C TInt IntSortTest(TInt aCount, TInt aNumTests, TInt64 aMask)
{
TInt n;
for (n=0; n<aNumTests; n++)
{
RArray<TInt64> a(aCount);
RArray<TInt64> b(aCount);
TInt i;
for (i=0; i<aCount; i++)
{
TInt64 x=Random64(aMask);
a.Append(x);
b.InsertInOrderAllowRepeats(x,Int64Order);
}
a.Sort(Int64Order);
if (a.Count()!=aCount)
{
a.Close();
b.Close();
return -1;
}
if (b.Count()!=aCount)
{
a.Close();
b.Close();
return -2;
}
for (i=0; i<aCount; i++)
{
if (a[i]!=b[i])
{
a.Close();
b.Close();
return -3;
}
}
a.Close();
b.Close();
}
return KErrNone;
}
LOCAL_C TInt EntrySortTest(TInt aCount, TInt aNumTests)
{
TInt n;
for (n=0; n<aNumTests; n++)
{
RArray<SEntry> a1(aCount,0); // keyed on iKey
RArray<SEntry> a2(aCount,0); // keyed on iKey
RArray<SEntry> b1(aCount,4); // keyed on iValue
RArray<SEntry> b2(aCount,4); // keyed on iValue
RArray<SEntry> c1(aCount,0); // keyed on iKey
RArray<SEntry> c2(aCount,0); // keyed on iKey
RArray<SEntry> d1(aCount,4); // keyed on iValue
RArray<SEntry> d2(aCount,4); // keyed on iValue
TInt i;
for (i=0; i<aCount; i++)
{
SEntry e;
e.iKey=Random();
e.iValue=Random();
a1.Append(e);
a2.InsertInSignedKeyOrderAllowRepeats(e);
b1.Append(e);
b2.InsertInSignedKeyOrderAllowRepeats(e);
c1.Append(e);
c2.InsertInUnsignedKeyOrderAllowRepeats(e);
d1.Append(e);
d2.InsertInUnsignedKeyOrderAllowRepeats(e);
}
a1.SortSigned();
b1.SortSigned();
c1.SortUnsigned();
d1.SortUnsigned();
if (a1.Count()!=aCount)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -1;
}
if (a2.Count()!=aCount)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -2;
}
if (b1.Count()!=aCount)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -3;
}
if (b2.Count()!=aCount)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -4;
}
if (c1.Count()!=aCount)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -5;
}
if (c2.Count()!=aCount)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -6;
}
if (d1.Count()!=aCount)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -7;
}
if (d2.Count()!=aCount)
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -8;
}
for (i=0; i<aCount; i++)
{
if (a1[i]!=a2[i])
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -9;
}
if (b1[i]!=b2[i])
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -10;
}
if (c1[i]!=c2[i])
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -11;
}
if (d1[i]!=d2[i])
{
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
return -12;
}
}
a1.Close();
a2.Close();
b1.Close();
b2.Close();
c1.Close();
c2.Close();
d1.Close();
d2.Close();
}
return KErrNone;
}
LOCAL_C TInt SortAccessBoundsTest(TInt aCount)
{
TInt bytes = aCount * sizeof(TInt);
RChunk chunk;
TInt r = chunk.CreateDoubleEndedLocal(4096, bytes + 4096, bytes + 8192);
if (r != KErrNone)
return r;
TInt size = chunk.Size() / sizeof(TInt); // Now rounded up to page boundary
TInt* data = (TInt*)(chunk.Base() + chunk.Bottom());
TInt i, j;
for (i = 1 ; i < aCount ; ++i)
{
for (j = 0 ; j < i ; ++j)
data[j] = Random();
RArray<TInt> a(data, i);
a.Sort();
for (j = 0 ; j < i ; ++j)
data[j] = Random();
RArray<TUint> b((TUint*)data, i);
b.Sort();
if (i % 2 == 0)
{
RArray<SEntry> c(sizeof(SEntry), (SEntry*)data, i / 2);
for (j = 0 ; j < i ; ++j)
data[j] = Random();
c.SortSigned();
for (j = 0 ; j < i ; ++j)
data[j] = Random();
c.SortUnsigned();
}
}
for (i = 1 ; i < aCount ; ++i)
{
for (j = 0 ; j < i ; ++j)
data[size - j - 1] = Random();
RArray<TInt> a(data + size - i, i);
a.Sort();
for (j = 0 ; j < i ; ++j)
data[size - j - 1] = Random();
RArray<TUint> b((TUint*)(data + size - i), i);
b.Sort();
if (i % 2 == 0)
{
RArray<SEntry> c(sizeof(SEntry), (SEntry*)(data + size - i), i / 2);
for (j = 0 ; j < i ; ++j)
data[size - j - 1] = Random();
c.SortSigned();
for (j = 0 ; j < i ; ++j)
data[size - j - 1] = Random();
c.SortUnsigned();
}
}
chunk.Close();
return KErrNone;
}
LOCAL_C TInt SEntrySpecificFindTests(TInt aCount, TInt aNumTests, TInt aRange)
{
TInt n;
TInt nmiss = 0;
TInt nrpt = 0;
TInt ntot = 0;
for (n=0; n<aNumTests; n++)
{
RArray<SEntry> a;
RArray<SEntry> b;
RArray<SEntry> c;
RArray<SEntry> d;
TInt i;
for (i=0; i<aCount; i++)
{
TInt x=Random()&aRange;
x-=(aRange>>1);
SEntry e;
e.iKey = x;
e.iValue = i;
a.Append(e);
c.Append(e);
b.InsertInSignedKeyOrderAllowRepeats(e);
d.InsertInUnsignedKeyOrderAllowRepeats(e);
}
a.Sort(&OrderSEntry2);
c.Sort(&OrderSEntryU2);
test(a.Count()==aCount);
test(b.Count()==aCount);
test(c.Count()==aCount);
test(d.Count()==aCount);
for (i=0; i<aCount; i++)
{
test(a[i]==b[i]);
test(c[i]==d[i]);
}
for (i=-(aRange>>1); i<=(aRange>>1); ++i)
{
SEntry es;
es.iKey = i;
TInt fk = a.SpecificFindInSignedKeyOrder(es, EArrayFindMode_First);
TInt lk = a.SpecificFindInSignedKeyOrder(es, EArrayFindMode_Last);
TInt ak = a.SpecificFindInSignedKeyOrder(es, EArrayFindMode_Any);
TInt fki, lki, aki;
TInt fk2 = a.SpecificFindInSignedKeyOrder(es, fki, EArrayFindMode_First);
TInt lk2 = a.SpecificFindInSignedKeyOrder(es, lki, EArrayFindMode_Last);
TInt ak2 = a.SpecificFindInSignedKeyOrder(es, aki, EArrayFindMode_Any);
TInt first = a.SpecificFindInOrder(es, &OrderSEntry, EArrayFindMode_First);
TInt last = a.SpecificFindInOrder(es, &OrderSEntry, EArrayFindMode_Last);
TInt any = a.SpecificFindInOrder(es, &OrderSEntry, EArrayFindMode_Any);
TInt fi, li, ai;
TInt first2 = a.SpecificFindInOrder(es, fi, &OrderSEntry, EArrayFindMode_First);
TInt last2 = a.SpecificFindInOrder(es, li, &OrderSEntry, EArrayFindMode_Last);
TInt any2 = a.SpecificFindInOrder(es, ai, &OrderSEntry, EArrayFindMode_Any);
++ntot;
test(first == fk);
test(last == lk);
test(any == ak);
test(first2 == fk2);
test(last2 == lk2);
test(any2 == ak2);
test(fki == fi);
test(lki == li);
test(aki == ai);
if (first < 0)
{
test(first == KErrNotFound);
test(first == last);
test(first == any);
test(first == first2);
test(first == last2);
test(first == any2);
test(fi == li);
test(fi == ai);
test(li==aCount || a[li].iKey>i);
test(li==0 || a[li-1].iKey<i);
++nmiss;
}
else
{
test(first2 == KErrNone);
test(last2 == KErrNone);
test(any2 == KErrNone);
test(first == fi);
test(last == li);
test(any == ai);
test(a[fi].iKey == i);
test(a[li-1].iKey == i);
test(li==aCount || a[li].iKey>i);
test(ai>=fi && ai<li);
test(a[ai].iKey == i);
if (li-fi > 1)
{
++nrpt;
TInt j;
for (j=fi+1; j<li; ++j)
test(a[j].iValue > a[j-1].iValue);
}
}
}
for (i=-(aRange>>1); i<=(aRange>>1); ++i)
{
TUint u = (TUint)i;
SEntry eu;
eu.iKey = i;
TInt fk = c.SpecificFindInUnsignedKeyOrder(eu, EArrayFindMode_First);
TInt lk = c.SpecificFindInUnsignedKeyOrder(eu, EArrayFindMode_Last);
TInt ak = c.SpecificFindInUnsignedKeyOrder(eu, EArrayFindMode_Any);
TInt fki, lki, aki;
TInt fk2 = c.SpecificFindInUnsignedKeyOrder(eu, fki, EArrayFindMode_First);
TInt lk2 = c.SpecificFindInUnsignedKeyOrder(eu, lki, EArrayFindMode_Last);
TInt ak2 = c.SpecificFindInUnsignedKeyOrder(eu, aki, EArrayFindMode_Any);
TInt first = c.SpecificFindInOrder(eu, &OrderSEntryU, EArrayFindMode_First);
TInt last = c.SpecificFindInOrder(eu, &OrderSEntryU, EArrayFindMode_Last);
TInt any = c.SpecificFindInOrder(eu, &OrderSEntryU, EArrayFindMode_Any);
TInt fi, li, ai;
TInt first2 = c.SpecificFindInOrder(eu, fi, &OrderSEntryU, EArrayFindMode_First);
TInt last2 = c.SpecificFindInOrder(eu, li, &OrderSEntryU, EArrayFindMode_Last);
TInt any2 = c.SpecificFindInOrder(eu, ai, &OrderSEntryU, EArrayFindMode_Any);
++ntot;
test(first == fk);
test(last == lk);
test(any == ak);
test(first2 == fk2);
test(last2 == lk2);
test(any2 == ak2);
test(fki == fi);
test(lki == li);
test(aki == ai);
if (first < 0)
{
test(first == KErrNotFound);
test(first == last);
test(first == any);
test(first == first2);
test(first == last2);
test(first == any2);
test(fi == li);
test(fi == ai);
test(li==aCount || TUint(c[li].iKey)>u);
test(li==0 || TUint(c[li-1].iKey)<u);
++nmiss;
}
else
{
test(first2 == KErrNone);
test(last2 == KErrNone);
test(any2 == KErrNone);
test(first == fi);
test(last == li);
test(any == ai);
test(c[fi].iKey == i);
test(c[li-1].iKey == i);
test(li==aCount || TUint(c[li].iKey)>u);
test(ai>=fi && ai<li);
test(c[ai].iKey == i);
if (li-fi > 1)
{
++nrpt;
TInt j;
for (j=fi+1; j<li; ++j)
test(c[j].iValue > c[j-1].iValue);
}
}
}
a.Close();
b.Close();
c.Close();
d.Close();
}
test.Printf(_L("ntot=%d nmiss=%d nrpt=%d\n"), ntot, nmiss, nrpt);
return KErrNone;
}
LOCAL_C void TestGrowCompress(RArray<TInt64>* a, ...)
{
SArray& pa = *(SArray*)a;
VA_LIST list;
VA_START(list, a);
TInt64 x;
FOREVER
{
TInt r = KErrNone;
TInt action = VA_ARG(list, TInt);
if (action == -99)
break;
TInt result = VA_ARG(list, TInt);
TInt orig = pa.iAllocated;
if (action == -1)
a->Compress();
else if (action == -2)
a->GranularCompress();
else if (action == -3)
a->Remove(pa.iCount - 1);
else if (action > 0)
{
TInt i;
for (i=0; i<action && r==KErrNone; ++i)
r = a->Append(x);
}
if ( (r<0 && (result!=r || pa.iAllocated!=orig)) || (r==0 && pa.iAllocated!=result) )
{
test.Printf(_L("Action %d Orig %d Expected %d r=%d newalloc=%d\n"), action, orig, result, r, pa.iAllocated);
test(0);
}
}
a->Reset();
}
LOCAL_C void TestGrowCompress()
{
RArray<TInt64> a;
TestGrowCompress(&a, 1, 8, 7, 8, 1, 16, 7, 16, 1, 24, -2, 24, -1, 17, 1, 25, -2, 25, -3, 25, -2, 24, -99);
TestGrowCompress(&a, 1, 8, 7, 8, 1, 16, 7, 16, 1, 24, -2, 24, -1, 17, 1, 25, -2, 25, -3, 25, -3, 25, -2, 16, -99);
RArray<TInt64> b(100);
TestGrowCompress(&b, 1, 100, 99, 100, 1, 200, 99, 200, 1, 300, -2, 300, -1, 201, 1, 301, -2, 301, -3, 301, -2, 300, -99);
TestGrowCompress(&b, 1, 100, 99, 100, 1, 200, 99, 200, 1, 300, -2, 300, -1, 201, 1, 301, -2, 301, -3, 301, -3, 301, -2, 200, -99);
RArray<TInt64> c(8, 0, 512);
TestGrowCompress(&c, 1, 8, 7, 8, 1, 16, 7, 16, 1, 32, 15, 32, 1, 64, -2, 40, 7, 40, 1, 80, -1, 41, -99);
RArray<TInt64> d(20, 0, 640);
TestGrowCompress(&d, 1, 20, 19, 20, 1, 50, 29, 50, 1, 125, -2, 60, -1, 51, -99);
RArray<TInt64> e(8, 0, 320);
TestGrowCompress(&e, 1, 8, 7, 8, 1, 16, 7, 16, 1, 24, 7, 24, 1, 32, 7, 32, 1, 40, 7, 40, 1, 50, 9, 50, 1, 63, -99);
RArray<TInt64> f(2, 0, 257);
TestGrowCompress(&f, 1, 2, 255, 256, 256, 512, 128, 640, 1, 643, 2, 643, 1, 646, -99);
}
GLDEF_C void DoSimpleArrayTests()
{
test.Start(_L("Simple Arrays..."));
test.Next(_L("AppendAndAccess tests..."));
test.Next(_L("Count 10 Mask 0x0000000300000003"));
test(IntAppendAndAccessTest(10,NUM_TESTS,MAKE_TINT64(0x3,0x3))==KErrNone);
test.Next(_L("Count 100 Range all"));
test(IntAppendAndAccessTest(100,NUM_TESTS,MAKE_TINT64(0xffffffff,0xffffffff))==KErrNone);
test.Next(_L("Remove test"));
test(IntRemoveTest()==KErrNone);
test.Next(_L("Find tests..."));
test.Next(_L("Count 10 Mask 0x0000000300000003"));
test(IntFindTest(10,NUM_TESTS,MAKE_TINT64(3,3))==KErrNone);
test.Next(_L("Count 100 Range all"));
test(IntFindTest(100,NUM_TESTS,MAKE_TINT64(0xffffffff,0xffffffff))==KErrNone);
test.Next(_L("SEntry find tests"));
test(EntryFindTest(128,NUM_TESTS)==KErrNone);
test.Next(_L("Find with equality operator tests"));
test(FindWithEqualityOpTest()==KErrNone);
test.Next(_L("FindReverse tests..."));
test.Next(_L("Count 10 Mask 0x0000000300000003"));
test(IntFindReverseTest(10,NUM_TESTS,MAKE_TINT64(3,3))==KErrNone);
test.Next(_L("Count 100 Range all"));
test(IntFindReverseTest(100,NUM_TESTS,MAKE_TINT64(0xffffffff,0xffffffff))==KErrNone);
test.Next(_L("SEntry find tests"));
test(EntryFindReverseTest(128,NUM_TESTS)==KErrNone);
test.Next(_L("FindInOrder tests..."));
test.Next(_L("Count 20 Mask 0x00000003C0000000"));
test(IntFindInOrderTest(20,NUM_TESTS,MAKE_TINT64(0x3,0xc0000000))==KErrNone);
test.Next(_L("Count 100 Mask 0x0000000FF0000000"));
test(IntFindInOrderTest(100,NUM_TESTS,MAKE_TINT64(0xf,0xf0000000))==KErrNone);
test.Next(_L("SEntry FindInOrder test"));
test(EntryFindInOrderTest(128,NUM_TESTS)==KErrNone);
test.Next(_L("InsertInOrder tests..."));
test.Next(_L("Count 50 Mask 0x00000003C0000000"));
test(IntInsertInOrderTest(50,NUM_TESTS,MAKE_TINT64(0x3,0xc0000000))==KErrNone);
test.Next(_L("Count 100 all"));
test(IntInsertInOrderTest(100,NUM_TESTS,MAKE_TINT64(0xffffffff,0xffffffff))==KErrNone);
test.Next(_L("SEntry InsertInOrder test"));
test(EntryInsertInOrderTest()==KErrNone);
test.Next(_L("Sort tests..."));
test.Next(_L("Count 30 Mask 0x00000003C0000000"));
test(IntSortTest(30,NUM_TESTS,MAKE_TINT64(0x3,0xc0000000))==KErrNone);
test.Next(_L("Count 100 all"));
test(IntSortTest(100,NUM_TESTS,MAKE_TINT64(0xffffffff,0xffffffff))==KErrNone);
test.Next(_L("SEntry sort test"));
test(EntrySortTest(128,NUM_TESTS)==KErrNone);
test.Next(_L("SEntrySpecificFindTests..."));
test(SEntrySpecificFindTests(100, 10, 15)==KErrNone);
test(SEntrySpecificFindTests(100, 10, 127)==KErrNone);
test.Next(_L("Test Grow/Compress"));
TestGrowCompress();
test.Next(_L("Test sort methods don't access memory beyond the end of the array"));
test(SortAccessBoundsTest(128)==KErrNone);
test.End();
}
GLDEF_C void DoArrayLeavingInterfaceTest()
{
TInt trap, ret(0);
TInt64 Int64s[3];
for (TInt i=0;i<3;i++) Int64s[i] = i;
RArray<TInt64> array;
CleanupClosePushL(array);
test.Start(_L("Checking Leaving Arrays Interface..."));
test.Next(_L("AppendL test..."));
TRAP(trap, array.AppendL(Int64s[0]));
test(trap==KErrNone);
test.Next(_L("InsertL test..."));
TRAP(trap, array.InsertL(Int64s[1],1));
test(trap==KErrNone);
test.Next(_L("Test FindL(const T& anEntry) const..."));
TRAP(trap, ret = array.FindL(Int64s[0]));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.FindL(Int64s[2]));
test(trap==KErrNotFound);
test.Next(_L("Test FindL(const T& anEntry, TIdentityRelation<T> anIdentity) const..."));
TRAP(trap, ret = array.FindL(Int64s[0],Int64Identity));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.FindL(Int64s[2],Int64Identity));
test(trap==KErrNotFound);
test.Next(_L("Test FindInSignedKeyOrderL(const T& anEntry) const..."));
TRAP(trap, ret = array.FindInSignedKeyOrderL(Int64s[0]));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.FindInSignedKeyOrderL(Int64s[2]));
test(trap==KErrNotFound);
test.Next(_L("Test FindInUnsignedKeyOrderL(const T& anEntry) const..."));
TRAP(trap, ret = array.FindInUnsignedKeyOrderL(Int64s[0]));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.FindInUnsignedKeyOrderL(Int64s[2]));
test(trap==KErrNotFound);
test.Next(_L("Test FindInOrderL(const T& anEntry, TLinearOrder<T> anOrder) const..."));
TRAP(trap, ret = array.FindInOrderL(Int64s[0], Int64Order));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.FindInOrderL(Int64s[2], Int64Order));
test(trap==KErrNotFound);
test.Next(_L("Test FindInSignedKeyOrderL(const T& anEntry, TInt& anIndex) const..."));
TRAP(trap, array.FindInSignedKeyOrderL(Int64s[0], ret));
test(trap==0);
test(ret==0);
TRAP(trap, array.FindInSignedKeyOrderL(Int64s[2], ret));
test(trap==KErrNotFound);
test.Next(_L("Test FindInUnsignedKeyOrderL(const T& anEntry, TInt& anIndex) const..."));
TRAP(trap, array.FindInUnsignedKeyOrderL(Int64s[0], ret));
test(trap==0);
test(ret==0);
TRAP(trap, array.FindInUnsignedKeyOrderL(Int64s[2], ret));
test(trap==KErrNotFound);
test.Next(_L("Test FindInOrderL(const T& anEntry, TInt& anIndex, TLinearOrder<T> anOrder) const..."));
TRAP(trap, array.FindInOrderL(Int64s[0], ret, Int64Order));
test(trap==0);
test(ret==0);
TRAP(trap, array.FindInOrderL(Int64s[2], ret, Int64Order));
test(trap==KErrNotFound);
test.Next(_L("Test SpecificFindInSignedKeyOrderL(const T& anEntry, TInt aMode) const..."));
TRAP(trap, ret = array.SpecificFindInSignedKeyOrderL(Int64s[0], EArrayFindMode_First));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.SpecificFindInSignedKeyOrderL(Int64s[2], EArrayFindMode_First));
test(trap==KErrNotFound);
test.Next(_L("Test SpecificFindInUnsignedKeyOrderL(const T& anEntry, TInt aMode) const..."));
TRAP(trap, ret = array.SpecificFindInUnsignedKeyOrderL(Int64s[0], EArrayFindMode_First));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.SpecificFindInUnsignedKeyOrderL(Int64s[2], EArrayFindMode_First));
test(trap==KErrNotFound);
test.Next(_L("Test SpecificFindInOrderL(const T& anEntry, TLinearOrder<T> anOrder, TInt aMode) const..."));
TRAP(trap, ret = array.SpecificFindInOrderL(Int64s[0], Int64Order, EArrayFindMode_First));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.SpecificFindInOrderL(Int64s[2], Int64Order, EArrayFindMode_First));
test(trap==KErrNotFound);
test.Next(_L("Test SpecificFindInSignedKeyOrderL(const T& anEntry, TInt& anIndex, TInt aMode) const..."));
TRAP(trap, array.SpecificFindInSignedKeyOrderL(Int64s[0], ret, EArrayFindMode_First));
test(trap==0);
test(ret==0);
TRAP(trap, array.SpecificFindInSignedKeyOrderL(Int64s[2], ret, EArrayFindMode_First));
test(trap==KErrNotFound);
test.Next(_L("Test SpecificFindInUnsignedKeyOrderL(const T& anEntry, TInt& anIndex, TInt aMode) const..."));
TRAP(trap, array.SpecificFindInUnsignedKeyOrderL(Int64s[0], ret, EArrayFindMode_First));
test(trap==0);
test(ret==0);
TRAP(trap, array.SpecificFindInUnsignedKeyOrderL(Int64s[2], ret, EArrayFindMode_First));
test(trap==KErrNotFound);
test.Next(_L("Test SpecificFindInOrderL(const T& anEntry, TInt& anIndex, TLinearOrder<T> anOrder, TInt aMode) const..."));
TRAP(trap, array.SpecificFindInOrderL(Int64s[0], ret, Int64Order, EArrayFindMode_First));
test(trap==0);
test(ret==0);
TRAP(trap, array.SpecificFindInOrderL(Int64s[2], ret, Int64Order, EArrayFindMode_First));
test(trap==KErrNotFound);
test.Next(_L("Test InsertInSignedKeyOrderL(const T& anEntry)..."));
TRAP(trap, array.InsertInSignedKeyOrderL(Int64s[0]));
test(trap==KErrAlreadyExists);
TRAP(trap, array.InsertInSignedKeyOrderL(Int64s[2]));
test(trap==KErrNone);
array.Remove(2);
test.Next(_L("Test InsertInUnsignedKeyOrderL(const T& anEntry)..."));
TRAP(trap, array.InsertInUnsignedKeyOrderL(Int64s[0]));
test(trap==KErrAlreadyExists);
TRAP(trap, array.InsertInUnsignedKeyOrderL(Int64s[2]));
test(trap==KErrNone);
array.Remove(2);
test.Next(_L("Test InsertInOrderL(const T& anEntry, TLinearOrder<T> anOrder)..."));
TRAP(trap, array.InsertInOrderL(Int64s[0], Int64Order));
test(trap==KErrAlreadyExists);
TRAP(trap, array.InsertInOrderL(Int64s[2], Int64Order));
test(trap==KErrNone);
array.Remove(2);
test.Next(_L("Test InsertInSignedKeyOrderAllowRepeatsL(const T& anEntry)..."));
TRAP(trap, array.InsertInSignedKeyOrderAllowRepeatsL(Int64s[2]));
test(trap==KErrNone);
array.Remove(2);
test.Next(_L("Test InsertInUnsignedKeyOrderAllowRepeatsL(const T& anEntry)..."));
TRAP(trap, array.InsertInUnsignedKeyOrderAllowRepeatsL(Int64s[2]));
test(trap==KErrNone);
array.Remove(2);
test.Next(_L("Test InsertInOrderAllowRepeatsL(const T& anEntry, TLinearOrder<T> anOrder)..."));
TRAP(trap, array.InsertInOrderAllowRepeatsL(Int64s[2], Int64Order));
test(trap==KErrNone);
array.Remove(2);
CleanupStack::PopAndDestroy(&array);
test.End();
}
GLDEF_C void DoTIntArrayLeavingInterfaceTest()
{
TInt trap, ret(0);
TInt Ints[3];
for (TInt i=0;i<3;i++) Ints[i] = i;
RArray<TInt> array;
CleanupClosePushL(array);
test.Start(_L("Checking Leaving Array<TInt> Interface..."));
test.Next(_L("AppendL test..."));
TRAP(trap, array.AppendL(Ints[0]));
test(trap==KErrNone);
test.Next(_L("InsertL test..."));
TRAP(trap, array.InsertL(Ints[1],1));
test(trap==KErrNone);
test.Next(_L("Test FindL(TInt anEntry) const..."));
TRAP(trap, ret = array.FindL(Ints[0]));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.FindL(Ints[2]));
test(trap==KErrNotFound);
test.Next(_L("Test FindInOrderL(TInt anEntry) const..."));
TRAP(trap, ret = array.FindInOrderL(Ints[0]));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.FindInOrderL(Ints[2]));
test(trap==KErrNotFound);
test.Next(_L("Test FindInOrderL(TInt anEntry, TInt& anIndex) const..."));
TRAP(trap, array.FindInOrderL(Ints[0], ret));
test(trap==0);
test(ret==0);
TRAP(trap, array.FindInOrderL(Ints[2], ret));
test(trap==KErrNotFound);
test.Next(_L("Test SpecificFindInOrderL(TInt anEntry, TInt aMode) const..."));
TRAP(trap, ret = array.SpecificFindInOrderL(Ints[0], EArrayFindMode_First));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.SpecificFindInOrderL(Ints[2], EArrayFindMode_First));
test(trap==KErrNotFound);
test.Next(_L("Test SpecificFindInOrderL(TInt anEntry, TInt& anIndex, TInt aMode) const..."));
TRAP(trap, array.SpecificFindInOrderL(Ints[0], ret, EArrayFindMode_First));
test(trap==0);
test(ret==0);
TRAP(trap, array.SpecificFindInOrderL(Ints[2], ret, EArrayFindMode_First));
test(trap==KErrNotFound);
test.Next(_L("Test InsertInOrderL(TInt anEntry)..."));
TRAP(trap, array.InsertInOrderL(Ints[0]));
test(trap==KErrAlreadyExists);
TRAP(trap, array.InsertInOrderL(Ints[2]));
test(trap==KErrNone);
array.Remove(2);
test.Next(_L("Test InsertInOrderAllowRepeatsL(TInt anEntry)..."));
TRAP(trap, array.InsertInOrderAllowRepeatsL(Ints[2]));
test(trap==KErrNone);
array.Remove(2);
CleanupStack::PopAndDestroy(&array);
test.End();
}
GLDEF_C void DoTUintArrayLeavingInterfaceTest()
{
TInt trap, ret(0);
TInt UInts[3];
for (TInt i=0;i<3;i++) UInts[i] = i;
RArray<TInt> array;
CleanupClosePushL(array);
test.Start(_L("Checking Leaving Array<TUint> Interface..."));
test.Next(_L("AppendL test..."));
TRAP(trap, array.AppendL(UInts[0]));
test(trap==KErrNone);
test.Next(_L("InsertL test..."));
TRAP(trap, array.InsertL(UInts[1],1));
test(trap==KErrNone);
test.Next(_L("Test FindL(TUint anEntry) const..."));
TRAP(trap, ret = array.FindL(UInts[0]));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.FindL(UInts[2]));
test(trap==KErrNotFound);
test.Next(_L("Test FindInOrderL(TUint anEntry) const..."));
TRAP(trap, ret = array.FindInOrderL(UInts[0]));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.FindInOrderL(UInts[2]));
test(trap==KErrNotFound);
test.Next(_L("Test FindInOrderL(TUint anEntry, TInt& anIndex) const..."));
TRAP(trap, array.FindInOrderL(UInts[0], ret));
test(trap==0);
test(ret==0);
TRAP(trap, array.FindInOrderL(UInts[2], ret));
test(trap==KErrNotFound);
test.Next(_L("Test SpecificFindInOrderL(TUint anEntry, TInt aMode) const..."));
TRAP(trap, ret = array.SpecificFindInOrderL(UInts[0], EArrayFindMode_First));
test(trap==0);
test(ret==0);
TRAP(trap, ret = array.SpecificFindInOrderL(UInts[2], EArrayFindMode_First));
test(trap==KErrNotFound);
test.Next(_L("Test SpecificFindInOrderL(TUint anEntry, TInt& anIndex, TInt aMode) const..."));
TRAP(trap, array.SpecificFindInOrderL(UInts[0], ret, EArrayFindMode_First));
test(trap==0);
test(ret==0);
TRAP(trap, array.SpecificFindInOrderL(UInts[2], ret, EArrayFindMode_First));
test(trap==KErrNotFound);
test.Next(_L("Test InsertInOrderL(TUint anEntry)..."));
TRAP(trap, array.InsertInOrderL(UInts[0]));
test(trap==KErrAlreadyExists);
TRAP(trap, array.InsertInOrderL(UInts[2]));
test(trap==KErrNone);
array.Remove(2);
test.Next(_L("Test InsertInOrderAllowRepeatsL(TUint anEntry)..."));
TRAP(trap, array.InsertInOrderAllowRepeatsL(UInts[2]));
test(trap==KErrNone);
array.Remove(2);
CleanupStack::PopAndDestroy(&array);
test.End();
}