--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/symport/e32test/buffer/t_hashtab.cpp Thu Jun 25 15:59:54 2009 +0100
@@ -0,0 +1,2439 @@
+// Copyright (c) 2005-2009 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 "Symbian Foundation License v1.0"
+// which accompanies this distribution, and is available
+// at the URL "http://www.symbianfoundation.org/legal/sfl-v10.html".
+//
+// Initial Contributors:
+// Nokia Corporation - initial contribution.
+//
+// Contributors:
+//
+// Description:
+// e32test/buffer/t_hashtab.cpp
+//
+//
+
+#include <e32test.h>
+#include <e32hashtab.h>
+#include <hal.h>
+
+#if defined(__VC32__) || defined(__CW32__)
+typedef unsigned short wch;
+#else
+typedef wchar_t wch;
+#endif
+
+
+RTest test(_L("T_HASHTAB"));
+TInt NanoTickPeriod;
+
+typedef TBuf8<80> TTestName;
+typedef RHashSet<TInt> TIntSet;
+typedef RHashSet<TTestName> TNameSet;
+typedef RPtrHashSet<TDesC8> TStringSet8;
+typedef RPtrHashSet<TDesC16> TStringSet16;
+typedef RPtrHashMap<TDesC8,TDesC8> TStringMap8;
+typedef RPtrHashMap<TDesC16,TDesC16> TStringMap16;
+
+#define INTSET(x) TIntSet x
+#define NAMESET(x) TNameSet x(&HashTestName, &TestNameIdentity)
+#define STRSET8(x) TStringSet8 x
+#define STRSET16(x) TStringSet16 x
+#define STRMAP8(x) TStringMap8 x
+#define STRMAP16(x) TStringMap16 x
+
+RPointerArray<TDesC8> DesC8Array;
+RPointerArray<TDesC16> DesC16Array;
+
+class HashTest : public RHashTableBase
+ {
+public:
+ HashTest() : RHashTableBase(0,0,0,0) {}
+ using RHashTableBase::ConsistencyCheck;
+ using RHashTableBase::Count;
+ };
+
+void CCheck(RHashTableBase& aHT)
+ {
+ TUint32 ci[1024];
+ TUint32 dc;
+ TUint32 cmp;
+ HashTest* h = (HashTest*)&aHT;
+ h->ConsistencyCheck(&dc, &cmp, 1024, ci);
+ test.Printf(_L("Count = %d, Deleted = %d, Cmp = %d\n"), h->Count(), dc, cmp);
+ TInt i;
+ for (i=0; i<1024; ++i)
+ {
+ if (ci[i])
+ test.Printf(_L("%d chains of length %d\n"), ci[i], i);
+ }
+ }
+
+const char* Numbers[] =
+ {
+ "zero",
+ "one",
+ "two",
+ "three",
+ "four",
+ "five",
+ "six",
+ "seven",
+ "eight",
+ "nine",
+ "ten",
+ "eleven",
+ "twelve",
+ "thirteen",
+ "fourteen",
+ "fifteen",
+ "sixteen",
+ "seventeen",
+ "eighteen",
+ "nineteen",
+ "twenty",
+ "thirty",
+ "forty",
+ "fifty",
+ "sixty",
+ "seventy",
+ "eighty",
+ "ninety",
+ "hundred",
+ "thousand"
+ };
+
+TTestName NumberInWords(const TInt& aNum)
+ {
+ TInt a = aNum;
+ TTestName n;
+ if (a<20)
+ {
+ n.Copy((const TUint8*)Numbers[a]);
+ return n;
+ }
+ if (a<100)
+ {
+ TInt tens = a/10;
+ TInt units = a%10;
+ n.Copy((const TUint8*)Numbers[tens-2+20]);
+ if (units)
+ {
+ n.Append(' ');
+ n.Append(TPtrC8((const TUint8*)Numbers[units]));
+ }
+ return n;
+ }
+ if (a<1000)
+ {
+ TInt h = a/100;
+ n.Copy((const TUint8*)Numbers[h]);
+ n.Append(' ');
+ n.Append(TPtrC8((const TUint8*)Numbers[28]));
+ a%=100;
+ if (a)
+ {
+ TTestName n2(NumberInWords(a));
+ n.Append(_L8(" and "));
+ n+=n2;
+ }
+ return n;
+ }
+ TInt t = a/1000;
+ n = NumberInWords(t);
+ n.Append(' ');
+ n.Append(TPtrC8((const TUint8*)Numbers[29]));
+ a%=1000;
+ if (a)
+ {
+ TTestName n2(NumberInWords(a));
+ if (a<100)
+ n.Append(_L8(" and "));
+ else
+ n.Append(' ');
+ n+=n2;
+ }
+ return n;
+ }
+
+void PrintNumberInWords(TInt a)
+ {
+ TBuf<256> buf;
+ TTestName n(NumberInWords(a));
+ buf.Copy(n);
+ test.Printf(_L("%d: %S\n"), a, &buf);
+ }
+
+TUint32 HashTestName(const TTestName& aN)
+ {
+ return DefaultHash::Des8(aN);
+ }
+
+TBool TestNameIdentity(const TTestName& aA, const TTestName& aB)
+ {
+ return aA == aB;
+ }
+
+/******************************************************************************
+ * Utility functions for RHashSet<T>
+ ******************************************************************************/
+template <class T>
+void Union(RHashSet<T>& aD, const RHashSet<T>& aS)
+ {
+ TInt c = aS.Count();
+ TInt c2 = c;
+ TInt d0 = aD.Count();
+ TInt d1 = d0;
+ typename RHashSet<T>::TIter iS(aS);
+ FOREVER
+ {
+ const T* p = iS.Next();
+ if (!p)
+ break;
+ --c2;
+ TInt r = aD.Insert(*p);
+ test(r==KErrNone);
+ ++d1;
+ }
+ test(d1 == aD.Count());
+ test(c2 == 0);
+ }
+
+template <class T>
+void Subtract(RHashSet<T>& aD, const RHashSet<T>& aS)
+ {
+ TInt c = aS.Count();
+ TInt c2 = c;
+ TInt d0 = aD.Count();
+ TInt d1 = d0;
+ TInt nfd = 0;
+ typename RHashSet<T>::TIter iS(aS);
+ FOREVER
+ {
+ const T* p = iS.Next();
+ if (!p)
+ break;
+ --c2;
+ TInt r = aD.Remove(*p);
+ test(r==KErrNone || r==KErrNotFound);
+ if (r==KErrNotFound)
+ ++nfd;
+ else
+ --d1;
+ }
+ test(d1 == aD.Count());
+ test(c2 == 0);
+ test( (d0-d1) + nfd == c);
+ }
+
+template <class T>
+void Intersect(RHashSet<T>& aD, const RHashSet<T>& aS)
+ {
+ typename RHashSet<T>::TIter iD(aD);
+ FOREVER
+ {
+ const T* p = iD.Next();
+ if (!p)
+ break;
+ if (!aS.Find(*p))
+ iD.RemoveCurrent();
+ }
+ }
+
+template <class T>
+void CheckIdentical(const RHashSet<T>& aA, const RHashSet<T>& aB)
+ {
+ test(aA.Count()==aB.Count());
+ TInt c = aA.Count();
+ typename RHashSet<T>::TIter iA(aA);
+ FOREVER
+ {
+ const T* p = iA.Next();
+ if (!p)
+ break;
+ --c;
+ test(aB.Find(*p)!=0);
+ }
+ test(c==0);
+ c = aA.Count();
+ typename RHashSet<T>::TIter iB(aB);
+ FOREVER
+ {
+ const T* p = iB.Next();
+ if (!p)
+ break;
+ --c;
+ test(aA.Find(*p)!=0);
+ }
+ test(c==0);
+ }
+
+
+/******************************************************************************
+ * Utility functions for RPtrHashSet<T>
+ ******************************************************************************/
+template <class T>
+void Union(RPtrHashSet<T>& aD, const RPtrHashSet<T>& aS)
+ {
+ TInt c = aS.Count();
+ TInt c2 = c;
+ TInt d0 = aD.Count();
+ TInt d1 = d0;
+ typename RPtrHashSet<T>::TIter iS(aS);
+ FOREVER
+ {
+ const T* p = iS.Next();
+ if (!p)
+ break;
+ --c2;
+ TInt r = aD.Insert(p);
+ test(r==KErrNone);
+ ++d1;
+ }
+ test(d1 == aD.Count());
+ test(c2 == 0);
+ }
+
+template <class T>
+void Subtract(RPtrHashSet<T>& aD, const RPtrHashSet<T>& aS)
+ {
+ TInt c = aS.Count();
+ TInt c2 = c;
+ TInt d0 = aD.Count();
+ TInt d1 = d0;
+ TInt nfd = 0;
+ typename RPtrHashSet<T>::TIter iS(aS);
+ FOREVER
+ {
+ const T* p = iS.Next();
+ if (!p)
+ break;
+ --c2;
+ TInt r = aD.Remove(p);
+ test(r==KErrNone || r==KErrNotFound);
+ if (r==KErrNotFound)
+ ++nfd;
+ else
+ --d1;
+ }
+ test(d1 == aD.Count());
+ test(c2 == 0);
+ test( (d0-d1) + nfd == c);
+ }
+
+template <class T>
+void Intersect(RPtrHashSet<T>& aD, const RPtrHashSet<T>& aS)
+ {
+ typename RPtrHashSet<T>::TIter iD(aD);
+ FOREVER
+ {
+ const T* p = iD.Next();
+ if (!p)
+ break;
+ if (!aS.Find(*p))
+ iD.RemoveCurrent();
+ }
+ }
+
+template <class T>
+void CheckIdentical(const RPtrHashSet<T>& aA, const RPtrHashSet<T>& aB)
+ {
+ test(aA.Count()==aB.Count());
+ TInt c = aA.Count();
+ typename RPtrHashSet<T>::TIter iA(aA);
+ FOREVER
+ {
+ const T* p = iA.Next();
+ if (!p)
+ break;
+ --c;
+ test(aB.Find(*p)!=0);
+ }
+ test(c==0);
+ c = aA.Count();
+ typename RPtrHashSet<T>::TIter iB(aB);
+ FOREVER
+ {
+ const T* p = iB.Next();
+ if (!p)
+ break;
+ --c;
+ test(aA.Find(*p)!=0);
+ }
+ test(c==0);
+ }
+
+
+/******************************************************************************
+ * Utility functions for RHashMap<K,V>
+ ******************************************************************************/
+template <class K, class V>
+void UnionTransform(RHashMap<K,V>& aD, const RHashSet<K>& aS, V (*aTransform)(const K&) )
+ {
+ TInt c = aS.Count();
+ TInt c2 = c;
+ TInt d0 = aD.Count();
+ TInt d1 = d0;
+ typename RHashSet<K>::TIter iS(aS);
+ FOREVER
+ {
+ const K* p = iS.Next();
+ if (!p)
+ break;
+ --c2;
+ TInt r = aD.Insert(*p, (*aTransform)(*p) );
+ test(r==KErrNone);
+ ++d1;
+ }
+ test(d1 == aD.Count());
+ test(c2 == 0);
+ }
+
+
+template <class K, class V>
+void UnionMap(RHashSet<V>& aD, const RHashSet<K>& aS, const RHashMap<K,V>& aM)
+ {
+ TInt c = aS.Count();
+ TInt c2 = c;
+ TInt d0 = aD.Count();
+ TInt d1 = d0;
+ typename RHashSet<K>::TIter iS(aS);
+ FOREVER
+ {
+ const K* p = iS.Next();
+ if (!p)
+ break;
+ --c2;
+ const V* q = aM.Find(*p);
+ if (!q)
+ continue;
+ TInt r = aD.Insert(*q);
+ test(r==KErrNone);
+ ++d1;
+ }
+ test(d1 == aD.Count());
+ test(c2 == 0);
+ }
+
+
+template <class K, class V>
+void UnionKeys(RHashSet<K>& aD, const RHashMap<K,V>& aM)
+ {
+ typename RHashMap<K,V>::TIter iM(aM);
+ FOREVER
+ {
+ const K* p = iM.NextKey();
+ if (!p)
+ break;
+ aD.Insert(*p);
+ }
+ }
+
+
+template <class K, class V>
+void UnionValues(RHashSet<V>& aD, const RHashMap<K,V>& aM)
+ {
+ typename RHashMap<K,V>::TIter iM(aM);
+ FOREVER
+ {
+ const K* p = iM.NextKey();
+ if (!p)
+ break;
+ const V* q = iM.CurrentValue();
+ aD.Insert(*q);
+ }
+ }
+
+
+template <class K, class V>
+void UnionTransform(RHashMap<K,V>& aD, const RHashMap<K,V>& aS, V (*aTransform)(const V&) )
+ {
+ TInt c = aS.Count();
+ TInt c2 = c;
+ TInt d0 = aD.Count();
+ TInt d1 = d0;
+ typename RHashMap<K,V>::TIter iS(aS);
+ FOREVER
+ {
+ const K* p = iS.NextKey();
+ if (!p)
+ break;
+ --c2;
+ TInt r = aD.Insert(*p, (*aTransform)(*iS.CurrentValue()) );
+ test(r==KErrNone);
+ ++d1;
+ }
+ test(d1 == aD.Count());
+ test(c2 == 0);
+ }
+
+
+template <class K, class V>
+void UnionInverse(RHashMap<V,K>& aD, const RHashMap<K,V>& aS)
+ {
+ TInt c = aS.Count();
+ TInt c2 = c;
+ TInt d0 = aD.Count();
+ TInt d1 = d0;
+ typename RHashMap<K,V>::TIter iS(aS);
+ FOREVER
+ {
+ const K* p = iS.NextKey();
+ if (!p)
+ break;
+ --c2;
+ const V* q = iS.CurrentValue();
+ TInt r = aD.Insert(*q, *p);
+ test(r==KErrNone);
+ ++d1;
+ }
+ test(d1 == aD.Count());
+ test(c2 == 0);
+ }
+
+template <class K, class V>
+void SetMap(RHashMap<V,K>& aM, const V& aV)
+ {
+ typename RHashMap<K,V>::TIter iM(aM);
+ FOREVER
+ {
+ const K* p = iM.NextKey();
+ if (!p)
+ break;
+ V* q = iM.CurrentValue();
+ *q = aV;
+ test(*q == aV);
+ }
+ }
+
+
+/******************************************************************************
+ * Utility functions for RPtrHashMap<K,V>
+ ******************************************************************************/
+template <class K, class V>
+void UnionTransform(RPtrHashMap<K,V>& aD, const RPtrHashMap<K,V>& aS, V* (*aTransform)(const V*) )
+ {
+ TInt c = aS.Count();
+ TInt c2 = c;
+ TInt d0 = aD.Count();
+ TInt d1 = d0;
+ typename RPtrHashMap<K,V>::TIter iS(aS);
+ FOREVER
+ {
+ const K* p = iS.NextKey();
+ if (!p)
+ break;
+ --c2;
+ TInt r = aD.Insert(p, (*aTransform)(iS.CurrentValue()) );
+ test(r==KErrNone);
+ ++d1;
+ }
+ test(d1 == aD.Count());
+ test(c2 == 0);
+ }
+
+
+template <class A, class B>
+void UnionInverse(RPtrHashMap<B,A>& aD, const RPtrHashMap<A,B>& a1)
+ {
+ typename RPtrHashMap<A,B>::TIter iter(a1);
+ const A* pA;
+ while ( (pA=iter.NextKey()) != 0 )
+ {
+ const B* pB = iter.CurrentValue();
+ TInt r = aD.Insert(pB, pA);
+ test(r==KErrNone);
+ }
+ }
+
+
+template <class A, class B, class C>
+void UnionCompose(RPtrHashMap<A,C>& aD, const RPtrHashMap<A,B>& a1, const RPtrHashMap<B,C>& a2)
+ {
+ typename RPtrHashMap<A,B>::TIter iter(a1);
+ const A* pA;
+ while ( (pA=iter.NextKey()) != 0 )
+ {
+ const B* pB = iter.CurrentValue();
+ const C* pC = a2.Find(*pB);
+ if (pC)
+ {
+ TInt r = aD.Insert(pA, pC);
+ test(r==KErrNone);
+ }
+ }
+ }
+
+
+template <class K, class V>
+void CheckIdenticalMaps(const RPtrHashMap<K,V>& aA, const RPtrHashMap<K,V>& aB)
+ {
+ test(aA.Count()==aB.Count());
+ TInt c = aA.Count();
+ const K* p;
+ const V* q;
+ typename RPtrHashMap<K,V>::TIter iA(aA);
+ while( (p=iA.NextKey()) != 0)
+ {
+ --c;
+ q = aB.Find(*p);
+ test(q && q==iA.CurrentValue());
+ }
+ test(c==0);
+ c = aB.Count();
+ typename RPtrHashMap<K,V>::TIter iB(aB);
+ while( (p=iB.NextKey()) != 0)
+ {
+ --c;
+ q = aA.Find(*p);
+ test(q && q==iB.CurrentValue());
+ }
+ test(c==0);
+ }
+
+
+
+
+
+/******************************************************************************
+ * Tests of TIntSet
+ ******************************************************************************/
+void Populate(TIntSet& aH, TInt aS, TInt aE, TInt aM)
+ {
+ TInt x = aS;
+ for (; x<=aE; x+=aM)
+ aH.Insert(x);
+ }
+
+void PrimeSieve(TIntSet& aH, TInt aStart, TInt aEnd)
+ {
+ TInt x;
+ TInt e = (aEnd&1) ? aEnd : aEnd-1;
+ TInt s = (aStart<2) ? 2 : aStart|1;
+ for (x=s; x<=e; ++x)
+ {
+// test.Printf(_L("add %d\n"),x);
+ aH.Insert(x);
+ }
+ TInt m=2;
+ FOREVER
+ {
+ for (; m*m<=e && !aH.Find(m); ++m)
+ {}
+ if (m*m > e)
+ break;
+ for (x=m*2; x<=e; x+=m)
+ {
+// test.Printf(_L("remove %d\n"),x);
+ aH.Remove(x);
+ }
+ ++m;
+ }
+ }
+
+TBool IsPrime(TInt x)
+ {
+ if (x==2)
+ return ETrue;
+ if (!(x&1))
+ return EFalse;
+ TInt d;
+ for (d=3; d*d<=x; d+=2)
+ {
+ if (x%d==0)
+ return EFalse;
+ }
+ return ETrue;
+ }
+
+void CheckSieveOutput(TIntSet& aH)
+ {
+ RHashSet<TInt>::TIter iter(aH);
+ TInt min = KMaxTInt;
+ TInt max = KMinTInt;
+ TInt c = 0;
+ test.Printf(_L("%d elements:\n"),aH.Count());
+ FOREVER
+ {
+ const TInt* p = iter.Next();
+ if (!p)
+ break;
+ ++c;
+ if (*p>max) max=*p;
+ if (*p<min) min=*p;
+// test.Printf(_L("%d\n"),*p);
+ test(IsPrime(*p));
+ }
+ test(c==aH.Count());
+ TInt x;
+ if (min==2)
+ {
+ test(aH.Find(2)!=0);
+ min++;
+ }
+ for (x=min; x<=max; x+=2)
+ {
+ if (IsPrime(x))
+ test(aH.Find(x)!=0);
+ }
+ for (x=min; x<=max; x+=2)
+ {
+ if (IsPrime(x))
+ test(aH.Find(x)==&aH.FindL(x));
+ else
+ {
+ TRAPD(rr,aH.FindL(x));
+ test(rr==KErrNotFound);
+ }
+ }
+ }
+
+TUint32 CheckSmallHashSet(const TIntSet& aA)
+ {
+ TUint32 m = 0;
+ RHashSet<TInt>::TIter iter(aA);
+ FOREVER
+ {
+ const TInt* p = iter.Next();
+ if (!p)
+ break;
+ m |= (1<<*p);
+ }
+ return m;
+ }
+
+void AddToSmallHashSet(TIntSet& aA, TUint32 aMask)
+ {
+ CheckSmallHashSet(aA);
+ TInt i;
+ TInt r;
+ for (i=0; i<32; ++i)
+ {
+ if (aMask & (1<<i))
+ {
+ r = aA.Insert(i);
+ test(r==KErrNone);
+ }
+ }
+ }
+
+void RemoveFromSmallHashSet(TIntSet& aA, TUint32 aMask)
+ {
+ TUint32 m = CheckSmallHashSet(aA);
+ TInt i;
+ TInt r;
+ for (i=0; i<32; ++i)
+ {
+ if (aMask & (1<<i))
+ {
+ r = aA.Remove(i);
+ if (m & (1<<i))
+ test(r==KErrNone);
+ else
+ test(r==KErrNotFound);
+ }
+ }
+ }
+
+void TestHashSet()
+ {
+ test.Next(_L("Test RHashSet"));
+
+ INTSET(hs);
+ CCheck(hs); // check consistency for empty table
+ INTSET(hs2);
+ INTSET(hs3);
+ PrimeSieve(hs, 1, 100);
+ CheckSieveOutput(hs);
+ test(hs.Reserve(1000)==KErrNone);
+ CCheck(hs);
+ CheckSieveOutput(hs); // check that Reserve() preserves existing entries
+
+ INTSET(m1);
+ INTSET(m2);
+ INTSET(m3);
+ INTSET(m5);
+ INTSET(m7);
+ Populate(m1,2,100,1);
+ Populate(m2,4,100,2);
+ Populate(m3,6,100,3);
+ Populate(m5,10,100,5);
+ Populate(m7,14,100,7);
+ Union(hs3, m1);
+ Subtract(hs3, m2);
+ Subtract(hs3, m3);
+ Subtract(hs3, m5);
+ Subtract(hs3, m7);
+ CheckSieveOutput(hs3);
+ CheckIdentical(hs,hs3);
+ hs3.Close();
+ INTSET(cm2);
+ INTSET(cm3);
+ INTSET(cm5);
+ INTSET(cm7);
+ Union(cm2, m1);
+ Subtract(cm2, m2);
+ Union(cm3, m1);
+ Subtract(cm3, m3);
+ Union(cm5, m1);
+ Subtract(cm5, m5);
+ Union(cm7, m1);
+ Subtract(cm7, m7);
+ Union(hs3, m1);
+ Intersect(hs3, cm7);
+ Intersect(hs3, cm3);
+ Intersect(hs3, cm5);
+ Intersect(hs3, cm2);
+ CheckSieveOutput(hs3);
+ CheckIdentical(hs,hs3);
+ hs3.Close();
+
+
+ cm2.Close();
+ cm3.Close();
+ cm5.Close();
+ cm7.Close();
+ m1.Close();
+ m2.Close();
+ m3.Close();
+ m5.Close();
+ m7.Close();
+
+ PrimeSieve(hs2, 1, 1000);
+ CheckSieveOutput(hs2);
+ test(hs2.Reserve(1000)==KErrNone);
+ CCheck(hs2);
+ CheckSieveOutput(hs2); // check that Reserve() preserves existing entries
+
+ PrimeSieve(hs, 100, 997);
+ CheckSieveOutput(hs);
+ CCheck(hs);
+ CheckIdentical(hs,hs2);
+
+ hs2.Close();
+ Union(hs2, hs);
+ CheckIdentical(hs,hs2);
+ CheckSieveOutput(hs2);
+
+ hs2.Close();
+ hs.Close();
+
+ test(CheckSmallHashSet(hs)==0);
+ AddToSmallHashSet(hs, 1);
+ test(CheckSmallHashSet(hs)==1);
+ AddToSmallHashSet(hs, 4);
+ test(CheckSmallHashSet(hs)==5);
+ AddToSmallHashSet(hs, 0x80000001);
+ test(CheckSmallHashSet(hs)==0x80000005);
+ AddToSmallHashSet(hs, 0x317217f8);
+ test(CheckSmallHashSet(hs)==0xb17217fd);
+ RemoveFromSmallHashSet(hs, 0x00000007);
+ test(CheckSmallHashSet(hs)==0xb17217f8);
+ RemoveFromSmallHashSet(hs, 0xffffffff);
+ test(CheckSmallHashSet(hs)==0);
+ hs.Close();
+ }
+
+void TestHashIter()
+ {
+ test.Next(_L("Test iterators"));
+
+ RHashSet<TInt> hs; // empty
+ RHashSet<TInt>::TIter iter(hs);
+ test(iter.Next() == 0);
+ test(iter.Current() == 0);
+ iter.RemoveCurrent();
+ test(iter.Next() == 0);
+ test(iter.Current() == 0);
+
+ test(hs.Insert(1) == KErrNone);
+ test(hs.Insert(2) == KErrNone);
+ test(hs.Insert(3) == KErrNone);
+ iter.Reset();
+ TUint mask = 14;
+ TInt i;
+ for (i=0; i<3; ++i)
+ {
+ const TInt* p = iter.Next();
+ test(p!=0);
+ TInt x = *p;
+ test (x>=1 && x<=3 && (mask&(1<<x))!=0);
+ mask &= ~(1<<x);
+ }
+ test(iter.Next() == 0);
+ test(mask==0);
+ test(CheckSmallHashSet(hs)==0x0e);
+ test(hs.Insert(4) == KErrNone);
+ test(hs.Insert(5) == KErrNone);
+ test(hs.Insert(6) == KErrNone);
+ test(hs.Insert(7) == KErrNone);
+ test(CheckSmallHashSet(hs)==0xfe);
+ iter.Reset();
+ while(iter.Next())
+ {
+ if ((*iter.Current() & 1) == 0)
+ iter.RemoveCurrent();
+ }
+ test(CheckSmallHashSet(hs)==0xaa);
+ iter.Reset();
+ while(iter.Next())
+ {
+ iter.RemoveCurrent();
+ }
+ test(CheckSmallHashSet(hs)==0);
+ iter.Reset();
+ test(iter.Next() == 0);
+ test(iter.Current() == 0);
+ RHashSet<TInt> empty;
+ CheckIdentical(hs, empty);
+#ifdef _DEBUG
+ __UHEAP_FAILNEXT(1);
+ test(empty.Insert(1)==KErrNoMemory);
+ test(empty.Insert(1)==KErrNone);
+ empty.Close();
+ __UHEAP_FAILNEXT(1);
+ test(hs.Insert(1)==KErrNone);
+ hs.Close();
+ __UHEAP_FAILNEXT(1);
+ test(hs.Insert(1)==KErrNoMemory);
+#endif
+ hs.Close();
+ }
+
+void Print(const char* aTitle, const RHashMap<TInt,TTestName>& aM)
+ {
+ TBuf<256> buf;
+ buf.Copy(TPtrC8((const TUint8*)aTitle));
+ test.Printf(_L("%S\n"), &buf);
+ RHashMap<TInt,TTestName>::TIter iter(aM);
+ FOREVER
+ {
+ const TInt* p = iter.NextKey();
+ if (!p) break;
+ buf.Copy(*iter.CurrentValue());
+ test.Printf(_L("%d: %S\n"), *p, &buf);
+ }
+ }
+
+void Print(const char* aTitle, const RHashSet<TTestName>& aS)
+ {
+ TBuf<256> buf;
+ buf.Copy(TPtrC8((const TUint8*)aTitle));
+ test.Printf(_L("%S\n"), &buf);
+ RHashSet<TTestName>::TIter iter(aS);
+ FOREVER
+ {
+ if (!iter.Next())
+ break;
+ buf.Copy(*iter.Current());
+ test.Printf(_L("%S\n"), &buf);
+ }
+ }
+
+void TestHashMap()
+ {
+ test.Next(_L("Test RHashMap"));
+
+ RHashMap<TInt,TInt> ht;
+ CCheck(ht); // check consistency for empty table
+ TInt x;
+ for (x=0; x<200; x++)
+ {
+ TInt r = ht.Insert(x*x, x);
+ test(r==KErrNone);
+ }
+ test(ht.Count()==200);
+
+ TInt z = 0;
+ TInt y;
+ for (x=0; x<40000; x++)
+ {
+ const TInt* e = ht.Find(x);
+ if (e)
+ {
+ const TInt& ee = ht.FindL(x);
+ test(&ee==e);
+ y = *e;
+// test.Printf(_L("Find(%d) -> %d\n"), x, y);
+ test(x == z*z);
+ test(y == z);
+ ++z;
+ }
+ else
+ {
+ TRAPD(rr, ht.FindL(x));
+ test(rr==KErrNotFound);
+ }
+ }
+ CCheck(ht);
+
+ for (x=0; x<200; x++)
+ {
+ TInt r = ht.Insert(x*x*x, x);
+ test(r==KErrNone);
+ }
+ test(ht.Count()==200*2-6);
+ CCheck(ht);
+
+ TInt sq = 0;
+ TInt cb = 0;
+ for (x=0; x<8000000; x++)
+ {
+ const TInt* e = ht.Find(x);
+ if (e)
+ {
+ const TInt& ee = ht.FindL(x);
+ test(&ee==e);
+ y = *e;
+// test.Printf(_L("Find(%d) -> %d\n"), x, y);
+ if (x == cb*cb*cb)
+ {
+ test(y==cb);
+ ++cb;
+ if (x == sq*sq)
+ ++sq;
+ }
+ else if (x == sq*sq)
+ {
+ test(y==sq);
+ ++sq;
+ }
+ }
+ }
+
+ for (x=0; x<200; x++)
+ {
+ TInt r = ht.Remove(x*x);
+ test(r==KErrNone);
+ }
+ test(ht.Count()==200-6);
+ CCheck(ht);
+
+ cb = 2;
+ for (x=2; x<8000000; x++)
+ {
+ const TInt* e = ht.Find(x);
+ if (e)
+ {
+ const TInt& ee = ht.FindL(x);
+ test(&ee==e);
+ y = *e;
+// test.Printf(_L("Find(%d) -> %d\n"), x, y);
+ if (cb == 4 || cb == 9 || cb == 16 || cb == 25) ++cb;
+ test(x == cb*cb*cb);
+ test(y == cb);
+ ++cb;
+ }
+ }
+
+ SetMap<TInt,TInt>(ht, 17);
+
+ ht.Close();
+
+ PrintNumberInWords(2000);
+ PrintNumberInWords(2001);
+ PrintNumberInWords(131072);
+ PrintNumberInWords(111111);
+ PrintNumberInWords(524288);
+
+ INTSET(all);
+ Populate(all,0,1000,1);
+ RHashMap<TInt,TTestName> to_words(&DefaultHash::Integer, &DefaultIdentity::Integer);
+ UnionTransform<TInt,TTestName>(to_words, all, &NumberInWords);
+ RHashMap<TTestName,TInt> from_words(&HashTestName, &TestNameIdentity);
+ UnionInverse<TInt,TTestName>(from_words, to_words);
+// Print("TO WORDS:", to_words);
+ INTSET(primes);
+ PrimeSieve(primes, 1, 100);
+// Print("Primes 1-100", primes);
+ RHashMap<TInt,TTestName> prime_map(&DefaultHash::Integer, &DefaultIdentity::Integer);
+ UnionTransform<TInt,TTestName>(prime_map, primes, &NumberInWords);
+// Print("Prime map 1-100", prime_map);
+ INTSET(pmkeys);
+ UnionKeys<TInt,TTestName>(pmkeys, prime_map);
+ NAMESET(pmval);
+ NAMESET(pmval2);
+ UnionValues<TInt,TTestName>(pmval, prime_map);
+ CheckIdentical(pmkeys, primes);
+ INTSET(pr2);
+ UnionMap<TTestName,TInt>(pr2, pmval, from_words);
+ CheckIdentical(pr2, primes);
+ pr2.Close();
+ Union(pmval2, pmval);
+// Print("pmval",pmval);
+// Print("pmval2",pmval2);
+ CheckIdentical(pmval2, pmval);
+ UnionMap<TTestName,TInt>(pr2, pmval2, from_words);
+ CheckIdentical(pr2, primes);
+
+ pr2.Close();
+ pmval.Close();
+ pmval2.Close();
+ pmkeys.Close();
+ prime_map.Close();
+ primes.Close();
+ all.Close();
+
+ INTSET(m);
+ Populate(all,2,1000,1);
+
+ NAMESET(pr3);
+ NAMESET(nm);
+ UnionMap<TInt,TTestName>(pr3, all, to_words);
+ all.Close();
+ CCheck(pr3);
+
+ Populate(m,4,1000,2);
+ UnionMap<TInt,TTestName>(nm, m, to_words);
+ m.Close();
+ Subtract(pr3, nm);
+ nm.Close();
+
+ Populate(m,6,1000,3);
+ UnionMap<TInt,TTestName>(nm, m, to_words);
+ m.Close();
+ Subtract(pr3, nm);
+ nm.Close();
+
+ Populate(m,10,1000,5);
+ UnionMap<TInt,TTestName>(nm, m, to_words);
+ m.Close();
+ Subtract(pr3, nm);
+ nm.Close();
+
+ Populate(m,14,1000,7);
+ UnionMap<TInt,TTestName>(nm, m, to_words);
+ m.Close();
+ Subtract(pr3, nm);
+ nm.Close();
+
+ Populate(m,22,1000,11);
+ UnionMap<TInt,TTestName>(nm, m, to_words);
+ m.Close();
+ Subtract(pr3, nm);
+ nm.Close();
+
+ Populate(m,26,1000,13);
+ UnionMap<TInt,TTestName>(nm, m, to_words);
+ m.Close();
+ Subtract(pr3, nm);
+ nm.Close();
+
+ Populate(m,34,1000,17);
+ UnionMap<TInt,TTestName>(nm, m, to_words);
+ m.Close();
+ Subtract(pr3, nm);
+ nm.Close();
+
+ Populate(m,38,1000,19);
+ UnionMap<TInt,TTestName>(nm, m, to_words);
+ m.Close();
+ Subtract(pr3, nm);
+ nm.Close();
+
+ Populate(m,46,1000,23);
+ UnionMap<TInt,TTestName>(nm, m, to_words);
+ m.Close();
+ Subtract(pr3, nm);
+ nm.Close();
+
+ Populate(m,58,1000,29);
+ UnionMap<TInt,TTestName>(nm, m, to_words);
+ m.Close();
+ Subtract(pr3, nm);
+ nm.Close();
+
+ Populate(m,62,1000,31);
+ UnionMap<TInt,TTestName>(nm, m, to_words);
+ m.Close();
+ Subtract(pr3, nm);
+ nm.Close();
+
+// Print("pr3",pr3);
+ PrimeSieve(primes, 1, 1000);
+ UnionMap<TInt,TTestName>(nm, primes, to_words);
+ CheckIdentical(nm, pr3);
+ CCheck(pr3);
+ UnionMap<TTestName,TInt>(m, pr3, from_words);
+ CheckIdentical(m, primes);
+
+ m.Close();
+ nm.Close();
+ primes.Close();
+ pr3.Close();
+ from_words.Close();
+ to_words.Close();
+ }
+
+void PopulateArray8(TInt aMax)
+ {
+ TInt i;
+ for (i=0; i<aMax; ++i)
+ {
+ TTestName n(NumberInWords(i));
+ HBufC8* p = n.Alloc();
+ test(p!=0);
+ TInt r = DesC8Array.Append(p);
+ test(r==KErrNone);
+ }
+ }
+
+void PopulateArray16(TInt aMax)
+ {
+ TInt i;
+ for (i=0; i<aMax; ++i)
+ {
+ TTestName n(NumberInWords(i));
+ TBuf<128> n16;
+ n16.Copy(n);
+ HBufC16* p = n16.Alloc();
+ test(p!=0);
+ TInt r = DesC16Array.Append(p);
+ test(r==KErrNone);
+ }
+ }
+
+TUint32 istrh8(const TDesC8* const & a)
+ {
+ return DefaultHash::Des8(*a);
+ }
+
+TBool istrid8(const TDesC8* const & aA, const TDesC8* const & aB)
+ {
+ return *aA == *aB;
+ }
+
+TUint32 istrh16(const TDesC16* const & a)
+ {
+ return DefaultHash::Des16(*a);
+ }
+
+TBool istrid16(const TDesC16* const & aA, const TDesC16* const & aB)
+ {
+ return *aA == *aB;
+ }
+
+void TestPtrHashSet()
+ {
+ test.Next(_L("Test RPtrHashSet"));
+
+ STRSET8(s);
+ CCheck(s); // check consistency for empty table
+ RHashMap<const TDesC8*, TInt> hm(&istrh8, &istrid8);
+ RPtrHashSet<TDesC8>::TIter iter(s);
+ const TDesC8* q;
+ TInt i;
+ for (i=0; i<4096; ++i)
+ {
+ TInt r = s.Insert(DesC8Array[i]);
+ test(r==KErrNone);
+ r = hm.Insert(DesC8Array[i], i);
+ test(r==KErrNone);
+ }
+ CCheck(s);
+ for (i=0; i<4100; ++i)
+ {
+ TTestName n(NumberInWords(i));
+ const TDesC8* p = s.Find(n);
+ if (i<4096)
+ {
+ const TDesC8& pp = s.FindL(n);
+ test(p && *p==n && p==DesC8Array[i]);
+ test(&pp == p);
+ }
+ else
+ {
+ test(!p);
+ TRAPD(rr,s.FindL(n));
+ test(rr==KErrNotFound);
+ }
+ }
+ while((q=iter.Next())!=0)
+ {
+ const TInt* qi = hm.Find(q);
+ test(qi!=0 && *qi>=0 && *qi<4096);
+ test(DesC8Array[*qi]==q);
+ }
+ for (i=0; i<4100; i+=2)
+ {
+ TTestName n(NumberInWords(i));
+ TInt r = s.Remove(&n);
+ if (i<4096)
+ test(r==KErrNone);
+ else
+ test(r==KErrNotFound);
+ }
+ test(s.Count()==2048);
+ CCheck(s);
+ for (i=0; i<4100; ++i)
+ {
+ TTestName n(NumberInWords(i));
+ const TDesC8* p = s.Find(n);
+ if (i<4096 && (i&1))
+ test(p && *p==n && p==DesC8Array[i]);
+ else
+ test(!p);
+ }
+ iter.Reset();
+ while((q=iter.Next())!=0)
+ {
+ const TInt* qi = hm.Find(q);
+ test(qi!=0 && *qi>=0 && *qi<4096 && (*qi&1));
+ test(DesC8Array[*qi]==q);
+ }
+ for (i=2; i<4096; i+=4)
+ {
+ TInt r = s.Insert(DesC8Array[i]);
+ test(r==KErrNone);
+ }
+ test(s.Count()==3072);
+ CCheck(s);
+ for (i=0; i<4100; ++i)
+ {
+ TTestName n(NumberInWords(i));
+ const TDesC8* p = s.Find(n);
+ if (i<4096 && (i&3))
+ test(p && *p==n && p==DesC8Array[i]);
+ else
+ test(!p);
+ }
+ iter.Reset();
+ while((q=iter.Next())!=0)
+ {
+ const TInt* qi = hm.Find(q);
+ test(qi!=0 && *qi>=0 && *qi<4096 && (*qi&3));
+ test(DesC8Array[*qi]==q);
+ }
+ s.Close();
+
+ // test ResetAndDestroy
+ for (i=0; i<16; ++i)
+ {
+ TInt r = s.Insert(DesC8Array[i]->Alloc());
+ test(r==KErrNone);
+ }
+ iter.Reset();
+ while((q=iter.Next())!=0)
+ {
+ const TInt* qi = hm.Find(q);
+ test(qi!=0 && *qi>=0 && *qi<16);
+ test(*DesC8Array[*qi]==*q);
+ test(DesC8Array[*qi]!=q);
+ }
+ s.ResetAndDestroy();
+ hm.Close();
+
+
+ STRSET16(S);
+ RHashMap<const TDesC16*, TInt> HM(&istrh16, &istrid16);
+ RPtrHashSet<TDesC16>::TIter ITER(S);
+ const TDesC16* Q;
+ for (i=0; i<4096; ++i)
+ {
+ TInt r = S.Insert(DesC16Array[i]);
+ test(r==KErrNone);
+ r = HM.Insert(DesC16Array[i], i);
+ test(r==KErrNone);
+ }
+ CCheck(S);
+ for (i=0; i<4100; ++i)
+ {
+ TTestName n(NumberInWords(i));
+ TBuf<80> buf;
+ buf.Copy(n);
+ const TDesC16* p = S.Find(buf);
+ if (i<4096)
+ test(p && *p==buf && p==DesC16Array[i]);
+ else
+ test(!p);
+ }
+ while((Q=ITER.Next())!=0)
+ {
+ const TInt* qi = HM.Find(Q);
+ test(qi!=0 && *qi>=0 && *qi<4096);
+ test(DesC16Array[*qi]==Q);
+ }
+ for (i=0; i<4100; i+=2)
+ {
+ TTestName n(NumberInWords(i));
+ TBuf<80> buf;
+ buf.Copy(n);
+ TInt r = S.Remove(&buf);
+ if (i<4096)
+ test(r==KErrNone);
+ else
+ test(r==KErrNotFound);
+ }
+ test(S.Count()==2048);
+ CCheck(S);
+ for (i=0; i<4100; ++i)
+ {
+ TTestName n(NumberInWords(i));
+ TBuf<80> buf;
+ buf.Copy(n);
+ const TDesC16* p = S.Find(buf);
+ if (i<4096 && (i&1))
+ test(p && *p==buf && p==DesC16Array[i]);
+ else
+ test(!p);
+ }
+ ITER.Reset();
+ while((Q=ITER.Next())!=0)
+ {
+ const TInt* qi = HM.Find(Q);
+ test(qi!=0 && *qi>=0 && *qi<4096 && (*qi&1));
+ test(DesC16Array[*qi]==Q);
+ }
+ for (i=2; i<4096; i+=4)
+ {
+ TInt r = S.Insert(DesC16Array[i]);
+ test(r==KErrNone);
+ }
+ test(S.Count()==3072);
+ CCheck(S);
+ for (i=0; i<4100; ++i)
+ {
+ TTestName n(NumberInWords(i));
+ TBuf<80> buf;
+ buf.Copy(n);
+ const TDesC16* p = S.Find(buf);
+ if (i<4096 && (i&3))
+ test(p && *p==buf && p==DesC16Array[i]);
+ else
+ test(!p);
+ }
+ ITER.Reset();
+ while((Q=ITER.Next())!=0)
+ {
+ const TInt* qi = HM.Find(Q);
+ test(qi!=0 && *qi>=0 && *qi<4096 && (*qi&3));
+ test(DesC16Array[*qi]==Q);
+ }
+ S.Close();
+
+ // test ResetAndDestroy
+ for (i=0; i<16; ++i)
+ {
+ TInt r = S.Insert(DesC16Array[i]->Alloc());
+ test(r==KErrNone);
+ }
+ ITER.Reset();
+ while((Q=ITER.Next())!=0)
+ {
+ const TInt* qi = HM.Find(Q);
+ test(qi!=0 && *qi>=0 && *qi<16);
+ test(*DesC16Array[*qi]==*Q);
+ test(DesC16Array[*qi]!=Q);
+ }
+ S.ResetAndDestroy();
+ HM.Close();
+ }
+
+void TestPtrHashMap()
+ {
+ test.Next(_L("Test RPtrHashMap"));
+
+ STRMAP8(map);
+ CCheck(map); // check consistency for empty table
+ STRMAP8(id);
+ TInt i;
+ for (i=0; i<4096; ++i)
+ {
+ TInt r = map.Insert(DesC8Array[i], DesC8Array[(i+1)&0xfff]);
+ test(r==KErrNone);
+ r = id.Insert(DesC8Array[i], DesC8Array[i]);
+ test(r==KErrNone);
+ }
+ for (i=0; i<4096; ++i)
+ {
+ const TDesC8* p = map.Find(*DesC8Array[i]);
+ test(p == DesC8Array[(i+1)&0xfff]);
+ const TDesC8& pp = map.FindL(*DesC8Array[i]);
+ test(&pp == p);
+ }
+ TRAPD(rr,map.FindL(_L8("two")));
+ test(rr==KErrNone);
+ TRAP(rr,map.FindL(_L8("twx")));
+ test(rr==KErrNotFound);
+ CCheck(map);
+ STRMAP8(map2);
+ STRMAP8(mapi);
+ STRMAP8(map3);
+ UnionInverse<TDesC8,TDesC8>(mapi, map);
+ UnionCompose<TDesC8,TDesC8,TDesC8>(map2, map, map);
+ UnionCompose<TDesC8,TDesC8,TDesC8>(map3, map, mapi);
+ CheckIdenticalMaps<TDesC8,TDesC8>(map3, id);
+ map3.Close();
+ UnionCompose<TDesC8,TDesC8,TDesC8>(map3, map2, mapi);
+ CheckIdenticalMaps<TDesC8,TDesC8>(map3, map);
+ map3.Close();
+ for (i=0; i<4096; ++i)
+ {
+ TInt r = map3.Insert(DesC8Array[i], DesC8Array[(i+2)&0xfff]);
+ test(r==KErrNone);
+ }
+ CheckIdenticalMaps<TDesC8,TDesC8>(map3, map2);
+ map3.Close();
+
+ mapi.Close();
+ map2.Close();
+ id.Close();
+ map.Close();
+
+ // test ResetAndDestroy()
+ for(i=0; i<16; ++i)
+ {
+ TInt r = map.Insert(DesC8Array[i]->Alloc(), DesC8Array[i*i]->Alloc());
+ test(r==KErrNone);
+ }
+ map.ResetAndDestroy();
+ }
+
+void TestOOM()
+ {
+ // Max out memory and check it still works
+ test.Next(_L("Test OOM"));
+
+ TInt x = 0;
+ TInt n = 0;
+ TInt r;
+ INTSET(set);
+ FOREVER
+ {
+ x += 0x58b90bfb;
+ r = set.Insert(x);
+ if (r != KErrNone)
+ break;
+ ++n;
+ }
+ test(r==KErrNoMemory);
+ TRAPD(rr,set.InsertL(x));
+ test(rr==KErrNoMemory);
+ test.Printf(_L("%d integers stored\n"), n);
+ test(set.Count()==n);
+ TRAP(rr,set.InsertL(0x58b90bfb)); // already there
+ test(rr==KErrNone); // should succeed
+
+ // final count should be a power of 2 minus 1
+ test( (n&(n+1)) == 0 );
+
+ x = 0;
+ TInt i;
+ for (i=0; i<=n; ++i) // check everything has been stored correctly
+ {
+ x += 0x58b90bfb;
+ const TInt* p = set.Find(x);
+ if (i < n)
+ test(p && *p == x);
+ else
+ test(!p);
+ }
+ set.Close();
+ TInt nn;
+ for (nn=256; nn<=n+256; nn+=256)
+ {
+ r = set.Reserve(nn);
+ set.Close();
+ if (r!=KErrNone)
+ break;
+ }
+ test.Printf(_L("Max reserve %d\n"),nn);
+ TInt thresh = 3*((n+1)>>2);
+ test(nn == thresh + 256);
+ }
+
+#ifndef __TOOLS2__
+class RDummyAllocator : public RAllocator
+ {
+public:
+ virtual TAny* Alloc(TInt) {test(0); return 0;}
+ virtual void Free(TAny*) {test(0);}
+ virtual TAny* ReAlloc(TAny*, TInt, TInt) {test(0); return 0;}
+ virtual TInt AllocLen(const TAny*) const {test(0); return 0;}
+ virtual TInt Compress() {test(0); return 0;}
+ virtual void Reset() {test(0);}
+ virtual TInt AllocSize(TInt&) const {test(0); return 0;}
+ virtual TInt Available(TInt&) const {test(0); return 0;}
+ virtual TInt DebugFunction(TInt, TAny*, TAny*) {test(0); return 0;}
+ virtual TInt Extension_(TUint, TAny*&, TAny*) {test(0); return 0;}
+ };
+
+void IntegerBenchmark(TInt aCount, TBool aReserve)
+ {
+ RArray<TInt> array;
+ TUint32 before, after, diff;
+ TInt x=0;
+ TInt i;
+ double avg;
+
+ test.Printf(_L("**** INTEGER BENCHMARKS ***\n"));
+
+ if (!aReserve)
+ {
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x += 0x58b90bfb;
+ TInt r = array.InsertInOrder(x);
+ test(r==KErrNone);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d insertions take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x += 0x58b90bfb;
+ TInt r = array.FindInOrder(x);
+ test(r>=0);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d successful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x += 0x58b90bfb;
+ TInt r = array.FindInOrder(x);
+ test(r==KErrNotFound);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d unsuccessful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x += 0x58b90bfb;
+ TInt r = array.FindInOrder(x);
+ test(r>=0);
+ array.Remove(r);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d deletions take %dus (%.2gus each)\n"), aCount, diff, avg);
+ array.Close();
+ }
+
+ INTSET(set);
+ x=0;
+ RAllocator* pA = 0;
+ RDummyAllocator da;
+ if (aReserve)
+ {
+ test(set.Reserve(aCount)==KErrNone);
+ pA = User::SwitchAllocator(&da); // check that no memory accesses occur
+ test(set.Reserve(10)==KErrNone); // shouldn't need to do anything
+ test(set.Reserve(aCount/2)==KErrNone); // shouldn't need to do anything
+ test(set.Reserve(aCount)==KErrNone); // shouldn't need to do anything
+ }
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x += 0x58b90bfb;
+ TInt r = set.Insert(x); // we have no heap here so this tests that Reserve() has preallocated sufficient memory
+ test(r==KErrNone);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ if (aReserve)
+ User::SwitchAllocator(pA);
+ test.Printf(_L("HASH TABLE: %d insertions take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x += 0x58b90bfb;
+ const TInt* p = set.Find(x);
+ test(p!=0);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("HASH TABLE: %d successful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x += 0x58b90bfb;
+ const TInt* p = set.Find(x);
+ test(!p);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("HASH TABLE: %d unsuccessful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x += 0x58b90bfb;
+ TInt r = set.Remove(x);
+ test(r==KErrNone);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("HASH TABLE: %d deletions take %dus (%.2gus each)\n"), aCount, diff, avg);
+ set.Close();
+ }
+
+TInt des8order(const TDesC8& aA, const TDesC8& aB)
+ {
+ return aA.Compare(aB);
+ }
+
+void StringBenchmark8(TInt aCount, TBool aReserve)
+ {
+ RPointerArray<TDesC8> array;
+ TUint32 before, after, diff;
+ TInt x=0;
+ TInt i;
+ double avg;
+ const TDesC8** base = (const TDesC8**)&DesC8Array[0];
+ test(base[1331] == DesC8Array[1331]);
+
+ test.Printf(_L("**** 8 BIT STRING BENCHMARKS ***\n"));
+
+ if (!aReserve)
+ {
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = array.InsertInOrder(base[x], &des8order);
+ test(r==KErrNone);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d insertions take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = array.FindInOrder(base[x], &des8order);
+ test(r>=0);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d successful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = array.FindInOrder(base[x], &des8order);
+ test(r==KErrNotFound);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d unsuccessful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = array.FindInOrder(base[x], &des8order);
+ test(r>=0);
+ array.Remove(r);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d deletions take %dus (%.2gus each)\n"), aCount, diff, avg);
+ array.Close();
+ }
+
+ STRSET8(set);
+ x=0;
+ if (aReserve)
+ test(set.Reserve(aCount)==KErrNone);
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = set.Insert(base[x]);
+ test(r==KErrNone);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("HASH TABLE: %d insertions take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ const TDesC8* p = set.Find(*base[x]);
+ test(p!=0);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("HASH TABLE: %d successful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ const TDesC8* p = set.Find(*base[x]);
+ test(!p);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("HASH TABLE: %d unsuccessful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = set.Remove(base[x]);
+ test(r==KErrNone);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("HASH TABLE: %d deletions take %dus (%.2gus each)\n"), aCount, diff, avg);
+ set.Close();
+ }
+
+TInt des16order(const TDesC16& aA, const TDesC16& aB)
+ {
+ return aA.Compare(aB);
+ }
+
+void StringBenchmark16(TInt aCount, TBool aReserve)
+ {
+ RPointerArray<TDesC16> array;
+ TUint32 before, after, diff;
+ TInt x=0;
+ TInt i;
+ double avg;
+ const TDesC16** base = (const TDesC16**)&DesC16Array[0];
+ test(base[1331] == DesC16Array[1331]);
+
+ test.Printf(_L("**** 16 BIT STRING BENCHMARKS ***\n"));
+
+ if (!aReserve)
+ {
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = array.InsertInOrder(base[x], &des16order);
+ test(r==KErrNone);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d insertions take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = array.FindInOrder(base[x], &des16order);
+ test(r>=0);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d successful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = array.FindInOrder(base[x], &des16order);
+ test(r==KErrNotFound);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d unsuccessful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = array.FindInOrder(base[x], &des16order);
+ test(r>=0);
+ array.Remove(r);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("ARRAY: %d deletions take %dus (%.2gus each)\n"), aCount, diff, avg);
+ array.Close();
+ }
+
+ STRSET16(set);
+ x=0;
+ if (aReserve)
+ test(set.Reserve(aCount)==KErrNone);
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = set.Insert(base[x]);
+ test(r==KErrNone);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("HASH TABLE: %d insertions take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ const TDesC16* p = set.Find(*base[x]);
+ test(p!=0);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("HASH TABLE: %d successful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ const TDesC16* p = set.Find(*base[x]);
+ test(!p);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("HASH TABLE: %d unsuccessful finds take %dus (%.2gus each)\n"), aCount, diff, avg);
+
+ x=0;
+ before = User::NTickCount();
+ for (i=0; i<aCount; ++i)
+ {
+ x = (x+4339)&0x3fff;
+ TInt r = set.Remove(base[x]);
+ test(r==KErrNone);
+ }
+ after = User::NTickCount();
+ diff = after - before;
+ diff *= NanoTickPeriod;
+ avg = (double)diff / (double)aCount;
+ test.Printf(_L("HASH TABLE: %d deletions take %dus (%.2gus each)\n"), aCount, diff, avg);
+ set.Close();
+ }
+
+void Benchmark()
+ {
+ test.Next(_L("Benchmarks ..."));
+
+ IntegerBenchmark(1000, EFalse);
+ IntegerBenchmark(1000, ETrue);
+ IntegerBenchmark(2000, EFalse);
+ IntegerBenchmark(2000, ETrue);
+ IntegerBenchmark(4000, EFalse);
+ IntegerBenchmark(4000, ETrue);
+ IntegerBenchmark(8000, EFalse);
+ IntegerBenchmark(8000, ETrue);
+ IntegerBenchmark(16000, EFalse);
+ IntegerBenchmark(16000, ETrue);
+ IntegerBenchmark(32000, EFalse);
+ IntegerBenchmark(32000, ETrue);
+
+ PopulateArray8(16384);
+ StringBenchmark8(1000, EFalse);
+ StringBenchmark8(2000, EFalse);
+ StringBenchmark8(4000, EFalse);
+ StringBenchmark8(8000, EFalse);
+ DesC8Array.ResetAndDestroy();
+
+ PopulateArray16(16384);
+ StringBenchmark16(1000, EFalse);
+ StringBenchmark16(2000, EFalse);
+ StringBenchmark16(4000, EFalse);
+ StringBenchmark16(8000, EFalse);
+ DesC16Array.ResetAndDestroy();
+ }
+#endif
+
+TUint32 mp(TUint32 x)
+ {
+ TUint32 x3 = x+(x<<1);
+ TUint32 x7 = x+(x3<<1);
+ TUint32 x15 = x+(x7<<1);
+ TUint32 y = x + (x7<<3) + (x3<<7) + (x15<<11) + (x7<<16) + (x3<<20) + (x15<<25) + (x<<31);
+ return y;
+ }
+
+TUint32 strh(const char* aIn)
+ {
+ TUint32 h = 0;
+ TInt i = 0;
+ while (*aIn)
+ {
+ if (i==0)
+ h = mp(h);
+ TUint32 c = *aIn++;
+ c <<= (8*i);
+ h ^= c;
+ i = (i+1)&3;
+ }
+ return mp(h);
+ }
+
+TUint32 strh(const wch* aIn)
+ {
+ TUint32 h = 0;
+ TInt i = 0;
+ while (*aIn)
+ {
+ if (i==0)
+ h = mp(h);
+ TUint32 c = *aIn++;
+ switch (i)
+ {
+ case 0: break;
+ case 1: c<<=16; break;
+ case 2: c<<=8; break;
+ default: c=(c<<24)|(c>>8); break;
+ };
+ h ^= c;
+ i = (i+1)&3;
+ }
+ return mp(h);
+ }
+
+void TestHash(TInt* aIn, TUint32 aExpected)
+ {
+ THashFunction32<TInt*> hf(&DefaultHash::IntegerPtr);
+ TUint32 out = hf.Hash(aIn);
+ test(aExpected == mp((TUint32)aIn));
+ if (out != aExpected)
+ {
+ test.Printf(_L("Hashing %08x Expected %08x Got %08x\n"), aIn, aExpected, out);
+ test(0);
+ }
+ }
+
+void TestHash(TDesC8* aIn, TUint32 aExpected)
+ {
+ THashFunction32<TDesC8*> hf(&DefaultHash::Des8Ptr);
+ TUint32 out = hf.Hash(aIn);
+ test(aExpected == mp((TUint32)aIn));
+ if (out != aExpected)
+ {
+ test.Printf(_L("Hashing %08x Expected %08x Got %08x\n"), aIn, aExpected, out);
+ test(0);
+ }
+ }
+
+void TestHash(TDesC16* aIn, TUint32 aExpected)
+ {
+ THashFunction32<TDesC16*> hf(&DefaultHash::Des16Ptr);
+ TUint32 out = hf.Hash(aIn);
+ test(aExpected == mp((TUint32)aIn));
+ if (out != aExpected)
+ {
+ test.Printf(_L("Hashing %08x Expected %08x Got %08x\n"), aIn, aExpected, out);
+ test(0);
+ }
+ }
+
+
+void TestHash(TInt aIn, TUint32 aExpected)
+ {
+ THashFunction32<TInt> hf(&DefaultHash::Integer);
+ TUint32 out = hf.Hash(aIn);
+ test(aExpected == mp((TUint32)aIn));
+ if (out != aExpected)
+ {
+ test.Printf(_L("Hashing %08x Expected %08x Got %08x\n"), aIn, aExpected, out);
+ test(0);
+ }
+ }
+
+void TestHash(const char* aIn, TUint32 aExpected)
+ {
+ THashFunction32<TDesC8> hf(&DefaultHash::Des8);
+ TPtrC8 p((const TUint8*)aIn);
+ TUint32 out = hf.Hash(p);
+ test(aExpected == strh(aIn));
+ if (out != aExpected)
+ {
+ TBuf<256> buf;
+ buf.Copy(p);
+ test.Printf(_L("Hashing %S (len %d) Expected %08x Got %08x\n"), &buf, p.Length(), aExpected, out);
+ test(0);
+ }
+ }
+
+void TestHash(const wch* aIn)
+ {
+ THashFunction32<TDesC16> hf(&DefaultHash::Des16);
+ TPtrC16 p((const TUint16*)aIn);
+ TUint32 out = hf.Hash(p);
+ TUint32 exp = strh(aIn);
+ if (out != exp)
+ {
+ test.Printf(_L("Hashing %S (len %d) Expected %08x Got %08x\n"), &p, p.Size(), exp, out);
+ test(0);
+ }
+ }
+
+void TestHash()
+ {
+ test.Next(_L("Test integer hash"));
+ TestHash(1,0x9e3779b9);
+ TestHash(2,0x3c6ef372);
+ TestHash(4,0x78dde6e4);
+ TestHash(8,0xf1bbcdc8);
+ TestHash(16,0xe3779b90);
+ TestHash(0xc90fdaa2,0xbf999112);
+ TestHash(0xb504f334,0x7fb35494);
+ TestHash(0xddb3d743,0xd11a3a6b);
+ TestHash(0xadf85458,0x873a8b98);
+ TestHash(0x11730859,0xb4321951);
+ TestHash(0x64636261,0x8628f119);
+ }
+
+void TestIntegerPtrHash()
+ {
+ TInt i[5];
+ TInt* ptr;
+ test.Next(_L("Test Integer pointer hash"));
+ for (ptr=i; ptr<i+5; ptr++)
+ {
+ TestHash(ptr, DefaultHash::IntegerPtr(ptr));
+ }
+ }
+
+void TestDes8PtrHash()
+ {
+ TBuf8<8> i[5];
+ TDesC8* ptr;
+ test.Next(_L("Test Des8 pointer hash"));
+ for (ptr=i; ptr<i+5; ptr++)
+ {
+ TestHash(ptr, DefaultHash::Des8Ptr(ptr));
+ }
+ }
+
+void TestDes16PtrHash()
+ {
+ TBuf16<8> i[5];
+ TDesC16* ptr;
+ test.Next(_L("Test Des16 pointer hash"));
+ for (ptr=i; ptr<i+5; ptr++)
+ {
+ TestHash(ptr, DefaultHash::Des16Ptr(ptr));
+ }
+ }
+
+const char teststr[] = "zyxwvutsrq";
+void TestStringHash()
+ {
+ test.Next(_L("Test 8 bit string hash"));
+ TestHash("",0x0);
+ TestHash("a",0xf3051f19);
+ TestHash("b",0x913c98d2);
+ TestHash("ab",0x2f9df119);
+ TestHash("ba",0x965bb1d2);
+ TestHash("abc",0x4228f119);
+ TestHash("abcd",0x8628f119);
+ TestHash("abcde",0xb75e1e9c);
+ TestHash("abcdef",0x3693149c);
+ TestHash("abcdefg",0xc1c2149c);
+ TestHash("abcdefgh",0xe9c2149c);
+ TestHash("abcdefghi",0x5fcbf20d);
+ TestHash("abcdefghj",0xfe036bc6);
+
+ TestHash(teststr, 0x108ca51e);
+ TestHash(teststr+1, 0x551002ad);
+ TestHash(teststr+2, 0x37dc0d6c);
+ TestHash(teststr+3, 0x2937f92c);
+ TestHash(teststr+4, 0xf0818a94);
+ TestHash(teststr+5, 0xb1b25f1c);
+ TestHash(teststr+6, 0x7a3342d4);
+ TestHash(teststr+7, 0x81c9101b);
+ TestHash(teststr+8, 0xf16edd62);
+ TestHash(teststr+9, 0xd67cbaa9);
+ TestHash(teststr+10, 0);
+
+ char t[16];
+ int i,j;
+ for (i=0; i<=4; ++i)
+ {
+ for (j=0; j<=10; ++j)
+ {
+ const char* s = teststr + j;
+ int l = User::StringLength((const TUint8*)s);
+ memset(t, 0xbb, 16);
+ memcpy(t+i, s, l+1);
+ TUint32 h;
+ switch (j)
+ {
+ case 0: h = 0x108ca51e; break;
+ case 1: h = 0x551002ad; break;
+ case 2: h = 0x37dc0d6c; break;
+ case 3: h = 0x2937f92c; break;
+ case 4: h = 0xf0818a94; break;
+ case 5: h = 0xb1b25f1c; break;
+ case 6: h = 0x7a3342d4; break;
+ case 7: h = 0x81c9101b; break;
+ case 8: h = 0xf16edd62; break;
+ case 9: h = 0xd67cbaa9; break;
+ default: h = 0; break;
+ };
+ TestHash(t+i, h);
+ }
+ }
+ }
+
+const wch wteststr[] = L"zyxwvutsrq";
+void TestWStringHash()
+ {
+ test.Next(_L("Test 16 bit string hash"));
+ TestHash(L"");
+ TestHash(L"a");
+ TestHash(L"b");
+ TestHash(L"ab");
+ TestHash(L"ba");
+ TestHash(L"abc");
+ TestHash(L"abcd");
+ TestHash(L"abcde");
+ TestHash(L"abcdef");
+ TestHash(L"abcdefg");
+ TestHash(L"abcdefgh");
+ TestHash(L"abcdefghi");
+ TestHash(L"abcdefghj");
+
+ TestHash(wteststr);
+ TestHash(wteststr+1);
+ TestHash(wteststr+2);
+ TestHash(wteststr+3);
+ TestHash(wteststr+4);
+ TestHash(wteststr+5);
+ TestHash(wteststr+6);
+ TestHash(wteststr+7);
+ TestHash(wteststr+8);
+ TestHash(wteststr+9);
+ TestHash(wteststr+10);
+
+ wch t[16];
+ int i,j;
+ for (i=0; i<=4; ++i)
+ {
+ for (j=0; j<=10; ++j)
+ {
+ const wch* s = wteststr + j;
+ int l = User::StringLength((const TUint16*)s);
+ memset(t, 0xbb, 2*16);
+ memcpy(t+i, s, 2*(l+1));
+ TestHash(t+i);
+ }
+ }
+ }
+template <class K,class V>
+void TestHashMapPtr(RHashMap<K,V> &map, K ptr, V* i)
+{
+ test(map.Reserve(5) == KErrNone);
+ for (ptr=i;ptr<i+5;ptr++)
+ {
+ test(map.Insert(ptr,*ptr) == KErrNone);
+ }
+ for (ptr=i+4;ptr>=i;ptr--)
+ {
+ test(*(map.Find(ptr)) == *ptr);
+ }
+ test(map.Count() == 5);
+ test(map.Remove(i) == KErrNone);
+ test(map.Count()==4);
+ test(map.Find(i)==NULL);
+ map.Close();
+}
+
+void TestPtrHashMaps()
+ {
+
+ test.Next(_L("Test RHashMap of default pointer types"));
+ TInt i[5];
+ TInt *ptr=i;
+ RHashMap<TInt*,TInt> mp;
+ TestHashMapPtr(mp, ptr, i);
+
+ TInt32 i1[5];
+ TInt32 *ptr1=i1;
+ RHashMap<TInt32*,TInt32> mp1;
+ TestHashMapPtr(mp1,ptr1,i1);
+
+ TUint i2[5];
+ TUint *ptr2=i2;
+ RHashMap<TUint*,TUint> mp2;
+ TestHashMapPtr(mp2,ptr2,i2);
+
+ TUint32 i3[5];
+ TUint32 *ptr3=i3;
+ RHashMap<TUint32*,TUint32> mp3;
+ TestHashMapPtr(mp3,ptr3,i3);
+
+ TBuf8<5> i4[5];
+ TBuf8<5> *ptr4=i4;
+ RHashMap<TDesC8*,TDesC8> mp4;
+ for (ptr4=i4; ptr4 < i4+5; ptr4++)
+ {
+ test(mp4.Insert(ptr4,*ptr4) == KErrNone);
+ }
+ for (ptr4=i4+4; ptr4 >= i4; ptr4--)
+ {
+ test(*(mp4.Find(ptr4)) == *ptr4);
+ }
+ test(mp4.Count()==5);
+ test(mp4.Remove(i4) == KErrNone);
+ test(mp4.Find(i4) == NULL);
+ test(mp4.Count()==4);
+ mp4.Close();
+
+
+ TBuf16<5> i5[5];
+ TBuf16<5> *ptr5=i5;
+ RHashMap<TDesC16*,TDesC16> mp5;
+ for (ptr5=i5; ptr5 < i5+5; ptr5++)
+ {
+ test(mp5.Insert(ptr5,*ptr5) == KErrNone);
+ }
+ for (ptr5=i5+4; ptr5 >= i5; ptr5--)
+ {
+ test(*(mp5.Find(ptr5)) == *ptr5);
+ }
+ test(mp5.Count()==5);
+ test(mp5.Remove(i5) == KErrNone);
+ test(mp5.Find(i5) == NULL);
+ test(mp5.Count()==4);
+ mp5.Close();
+
+}
+
+/** Tests that Reserve() will always allocate memory for new tables
+ even for small reserve sizes
+ See DEF087906.
+*/
+#ifndef __TOOLS2__
+void TestSmallReserve()
+ {
+ test.Next(_L("Test RHashTableBase::Reserve preallocates memory, even for small no of elements"));
+ RAllocator* pA = 0;
+ RDummyAllocator da;
+
+ // Reserve should allocate the memory required for the table of 1 element
+ INTSET(set);
+ RHashMap<TInt,TInt> hashMap;
+
+ test(set.Reserve(1) == KErrNone);
+ test(hashMap.Reserve(1) == KErrNone);
+
+ pA = User::SwitchAllocator(&da);
+
+ // No more memory should be allocated for the table as it should
+ // have been already allocated by Reserve()
+ test(set.Insert(123) == KErrNone);
+ test(hashMap.Insert(123,456) == KErrNone);
+
+ // Switch back to allow set to be closed
+ User::SwitchAllocator(pA);
+ set.Close();
+ hashMap.Close();
+ }
+#endif
+
+TInt E32Main()
+ {
+ test.Title();
+
+#ifndef __TOOLS2__
+ test(HAL::Get(HAL::ENanoTickPeriod, NanoTickPeriod)==KErrNone);
+ test.Printf(_L("NanoTickPeriod %dus\n"), NanoTickPeriod);
+#endif
+
+ __UHEAP_MARK;
+
+ test.Start(_L("Testing hash tables"));
+
+ TestHash();
+ TestStringHash();
+ TestWStringHash();
+ TestIntegerPtrHash();
+ TestDes8PtrHash();
+ TestDes16PtrHash();
+
+ TestHashSet();
+ TestHashIter();
+ TestHashMap();
+ TestPtrHashMaps();
+
+ PopulateArray8(4096);
+ PopulateArray16(4096);
+ TestPtrHashSet();
+ TestPtrHashMap();
+ DesC16Array.ResetAndDestroy();
+ DesC8Array.ResetAndDestroy();
+
+
+#ifndef __TOOLS2__
+ TestOOM();
+ Benchmark();
+ TestSmallReserve();
+#endif
+
+ test.End();
+
+ __UHEAP_MARKEND;
+ return 0;
+ }