Beispiel #1
0
//---------------------------------------------------------------------------
//	@function:
//		CBitSetTest::EresUnittest_Removal
//
//	@doc:
//		Cleanup test
//
//---------------------------------------------------------------------------
GPOS_RESULT
CBitSetTest::EresUnittest_Removal()
{
	// create memory pool
	CAutoMemoryPool amp;
	IMemoryPool *pmp = amp.Pmp();

	ULONG cSizeBits = 32;
	CBitSet *pbs = GPOS_NEW(pmp) CBitSet(pmp, cSizeBits);
	CBitSet *pbsEmpty = GPOS_NEW(pmp) CBitSet(pmp, cSizeBits);

	GPOS_ASSERT(pbs->FEqual(pbsEmpty));
	GPOS_ASSERT(pbsEmpty->FEqual(pbs));

	ULONG cInserts = 10;
	for (ULONG i = 0; i < cInserts; i++)
	{
		pbs->FExchangeSet(i * cSizeBits);

		GPOS_ASSERT(i + 1 == pbs->CElements());
	}

	for (ULONG i = 0; i < cInserts; i++)
	{
		// cleans up empty links
		pbs->FExchangeClear(i * cSizeBits);

		GPOS_ASSERT(cInserts - i - 1 == pbs->CElements());
	}

	GPOS_ASSERT(pbs->FEqual(pbsEmpty));
	GPOS_ASSERT(pbsEmpty->FEqual(pbs));

	pbs->Release();
	pbsEmpty->Release();

	return GPOS_OK;
}
Beispiel #2
0
//---------------------------------------------------------------------------
//	@function:
//		CBitSetTest::EresUnittest_SetOps
//
//	@doc:
//		Test for set operations
//
//---------------------------------------------------------------------------
GPOS_RESULT
CBitSetTest::EresUnittest_SetOps()
{
	// create memory pool
	CAutoMemoryPool amp;
	IMemoryPool *pmp = amp.Pmp();

	ULONG cSizeBits = 32;
	ULONG cInserts = 10;

	CBitSet *pbs1 = GPOS_NEW(pmp) CBitSet(pmp, cSizeBits);
	for (ULONG i = 0; i < cInserts; i += 2)
	{
		pbs1->FExchangeSet(i * cSizeBits);
	}

	CBitSet *pbs2 = GPOS_NEW(pmp) CBitSet(pmp, cSizeBits);
	for (ULONG i = 1; i < cInserts; i += 2)
	{
		pbs2->FExchangeSet(i * cSizeBits);
	}
	CBitSet *pbs = GPOS_NEW(pmp) CBitSet(pmp, cSizeBits);

	pbs->Union(pbs1);
	GPOS_ASSERT(pbs->FEqual(pbs1));

	pbs->Intersection(pbs1);
	GPOS_ASSERT(pbs->FEqual(pbs1));
	GPOS_ASSERT(pbs->FEqual(pbs));
	GPOS_ASSERT(pbs1->FEqual(pbs1));

	pbs->Union(pbs2);
	GPOS_ASSERT(!pbs->FEqual(pbs1) && !pbs->FEqual(pbs2));
	GPOS_ASSERT(pbs->FSubset(pbs1) && pbs->FSubset(pbs2));
	
	pbs->Difference(pbs2);
	GPOS_ASSERT(pbs->FEqual(pbs1));

	pbs1->Release();

	pbs->Union(pbs2);
	pbs->Intersection(pbs2);
	GPOS_ASSERT(pbs->FEqual(pbs2));
	GPOS_ASSERT(pbs->FSubset(pbs2));

	GPOS_ASSERT(pbs->CElements() == pbs2->CElements());

	pbs2->Release();

	pbs->Release();

	return GPOS_OK;
}
Beispiel #3
0
//---------------------------------------------------------------------------
//	@function:
//		CBitSetTest::EresUnittest_Basics
//
//	@doc:
//		Testing ctors/dtor
//
//---------------------------------------------------------------------------
GPOS_RESULT
CBitSetTest::EresUnittest_Basics()
{
	// create memory pool
	CAutoMemoryPool amp;
	IMemoryPool *pmp = amp.Pmp();

	ULONG cSizeBits = 32;
	CBitSet *pbs = GPOS_NEW(pmp) CBitSet(pmp, cSizeBits);

	ULONG cInserts = 10;
	for (ULONG i = 0; i < cInserts; i += 2)
	{
		// forces addition of new link
		pbs->FExchangeSet(i * cSizeBits);
	}
	GPOS_ASSERT(cInserts / 2 == pbs->CElements());

	for (ULONG i = 1; i < cInserts; i += 2)
	{
		// new link between existing links
		pbs->FExchangeSet(i * cSizeBits);
	}
	GPOS_ASSERT(cInserts == pbs->CElements());

	CBitSet *pbsCopy = GPOS_NEW(pmp) CBitSet(pmp, *pbs);
	GPOS_ASSERT(pbsCopy->FEqual(pbs));

	// delete old bitset to make sure we're not accidentally
	// using any of its memory
	pbs->Release();

	for (ULONG i = 0; i < cInserts; i++)
	{
		GPOS_ASSERT(pbsCopy->FBit(i * cSizeBits));
	}

	CWStringDynamic str(pmp);
	COstreamString os(&str);
	
	os << *pbsCopy << std::endl;
	GPOS_TRACE(str.Wsz());
	
	pbsCopy->Release();

	return GPOS_OK;
}
Beispiel #4
0
//---------------------------------------------------------------------------
//	@function:
//		CJoinOrderDP::PexprBestJoinOrder
//
//	@doc:
//		find best join order for a given set of elements;
//
//---------------------------------------------------------------------------
CExpression *
CJoinOrderDP::PexprBestJoinOrder
	(
	CBitSet *pbs
	)
{
	GPOS_CHECK_STACK_SIZE;
	GPOS_CHECK_ABORT;

	GPOS_ASSERT(NULL != pbs);

	// start by looking-up cost in the DP map
	CExpression *pexpr = PexprLookup(pbs);

	if (pexpr == m_pexprDummy)
	{
		// no join order could be created
		return NULL;
	}

	if (NULL != pexpr)
	{
		// join order is found by looking up map
		return pexpr;
	}

	// find maximal covered subset
	CBitSet *pbsCovered = PbsCovered(pbs);
	if (0 == pbsCovered->CElements())
	{
		// set is not covered, return a cross product
		pbsCovered->Release();

		return PexprCross(pbs);
	}

	if (!pbsCovered->FEqual(pbs))
	{
		// create a cross product for uncovered subset
		CBitSet *pbsUncovered = GPOS_NEW(m_pmp) CBitSet(m_pmp, *pbs);
		pbsUncovered->Difference(pbsCovered);
		CExpression *pexprResult =
			PexprJoinCoveredSubsetWithUncoveredSubset(pbs, pbsCovered, pbsUncovered);
		pbsCovered->Release();
		pbsUncovered->Release();

		return pexprResult;
	}
	pbsCovered->Release();

	// if set has size 2, there is only one possible solution
	if (2 == pbs->CElements())
	{
		return PexprJoin(pbs);
	}

	// otherwise, compute best join order using dynamic programming
	CExpression *pexprBestJoinOrder = PexprBestJoinOrderDP(pbs);
	if (pexprBestJoinOrder == m_pexprDummy)
	{
		// no join order could be created
		return NULL;
	}

	return pexprBestJoinOrder;
}