Fix for bug 2283 (RVCT 4.0 support is missing from PDK 3.0.h)
Have multiple extension sections in the bld.inf, one for each version
of the compiler. The RVCT version building the tools will build the
runtime libraries for its version, but make sure we extract all the other
versions from zip archives. Also add the archive for RVCT4.
// 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();
}