kerneltest/e32test/math/t_realx.cpp
changeset 0 a41df078684a
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/kerneltest/e32test/math/t_realx.cpp	Mon Oct 19 15:55:17 2009 +0100
@@ -0,0 +1,981 @@
+// Copyright (c) 1997-2009 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\math\t_realx.cpp
+// T_REALX.CPP - Test routines for TRealX
+// Overview:
+// Test the functionality of a class that encapsulates 64 bit extended precision
+// real values.
+// API Information:
+// TRealX 
+// Details:
+// - Test the constructor and assignment operator with signed, unsigned, 64 bit
+// integer, float and double values.
+// - Check the conversion of TRealX value to signed, unsigned, 64 bit integer,
+// float and double values is as expected.
+// - Set TRealX variable with some special values and check it is as expected.
+// - Test addition, multiplication, division of TRealX values is as expected.
+// - Test Unary operators, comparison of two TRealX values are as expected.
+// Platforms/Drives/Compatibility:
+// All 
+// Assumptions/Requirement/Pre-requisites:
+// Failures and causes:
+// Base Port information:
+// 
+//
+
+#include <e32std.h>
+#include <e32std_private.h>
+#include <e32test.h>
+#include <e32math.h>
+#include "t_realxd.h"
+
+LOCAL_D RTest test(_L("T_TREALX"));
+
+// Conversion functions TInt64 <-> TReal64
+LOCAL_C void TReal64ToTInt64(TInt64 *aDest, const TReal64 *aSrc)
+	{
+	TInt *pD=(TInt*)aDest;
+	const TInt *pS=(TInt*)aSrc;
+#ifdef __DOUBLE_WORDS_SWAPPED__
+	pD[1]=pS[0];		// word containing sign,exp
+	pD[0]=pS[1];
+#else
+	pD[1]=pS[1];		// word containing sign,exp
+	pD[0]=pS[0];
+#endif
+	}
+
+LOCAL_C void TInt64ToTReal64(TReal64 *aDest, const TInt64 *aSrc)
+	{
+	TInt *pD=(TInt*)aDest;
+	const TInt *pS=(TInt*)aSrc;
+#ifdef __DOUBLE_WORDS_SWAPPED__
+	pD[0]=pS[1];		// word containing sign,exp
+	pD[1]=pS[0];
+#else
+	pD[1]=pS[1];		// word containing sign,exp
+	pD[0]=pS[0];
+#endif
+	}
+
+// Test functions
+SRealX::SRealX(TUint a, TUint b, TUint c)
+	{
+	iExpFlagSign=a;
+	iMantHigh=b;
+	iMantLow=c;
+	}
+
+SRealX::SRealX(const TRealX& aRealX)
+	{
+	const TUint *pR = (const TUint *)&aRealX;
+	iExpFlagSign=pR[2];
+	iMantHigh=pR[1];
+	iMantLow=pR[0];
+	}
+
+SRealX& SRealX::operator=(const TRealX& aRealX)
+	{
+	const TUint *pR = (const TUint *)&aRealX;
+	iExpFlagSign=pR[2];
+	iMantHigh=pR[1];
+	iMantLow=pR[0];
+	return *this;
+	}
+
+SRealX::operator TRealX() const
+	{
+	TRealX r;
+	TUint *pR=(TUint *)&r;
+	pR[2]=iExpFlagSign;
+	pR[1]=iMantHigh;
+	pR[0]=iMantLow;
+	return r;
+	}
+
+TBool SRealX::operator==(const SRealX& aSRealX) const
+	{
+	TUint e1=iExpFlagSign >> 16;
+	TUint e2=aSRealX.iExpFlagSign >> 16;
+	TUint s1=iExpFlagSign & 0x00000001;
+	TUint s2=aSRealX.iExpFlagSign & 0x00000001;
+	TUint f1=iExpFlagSign & 0x00000300;
+	TUint f2=aSRealX.iExpFlagSign & 0x00000300;
+	return( e1==e2 && s1==s2 && (e1==0 || (f1==f2 && iMantHigh==aSRealX.iMantHigh && iMantLow==aSRealX.iMantLow)) );
+	}
+
+SConvertFrom32BitTest::SConvertFrom32BitTest(TInt op, const SRealX& res, TInt r)
+	{
+	iOperand=op;
+	iResult=res;
+	iReturnCode=r;
+	}
+
+void SConvertFrom32BitTest::Test(TConversionFrom32Bits aConversion) const
+	{
+	TInt r=iReturnCode;
+	SRealX sr;
+	switch(aConversion)
+		{
+		case EConstructInt:
+			{
+			TRealX x(iOperand);
+			sr=(SRealX)x;
+			break;
+			}
+		case EAssignInt:
+			{
+			TRealX x;
+			x=iOperand;
+			sr=(SRealX)x;
+			break;
+			}
+		case ESetInt:
+			{
+			TRealX x;
+			r=x.Set(iOperand);
+			sr=(SRealX)x;
+			break;
+			}
+		case EConstructUint:
+			{
+			TUint uint=(TUint)iOperand;
+			TRealX x(uint);
+			sr=(SRealX)x;
+			break;
+			}
+		case EAssignUint:
+			{
+			TUint uint=(TUint)iOperand;
+			TRealX x;
+			x=uint;
+			sr=(SRealX)x;
+			break;
+			}
+		case ESetUint:
+			{
+			TUint uint=(TUint)iOperand;
+			TRealX x;
+			r=x.Set(uint);
+			sr=(SRealX)x;
+			break;
+			}
+		case EConstructFloat:
+			{
+			TReal32 f;
+			TInt *pF=(TInt*)&f;
+			*pF=iOperand;
+			TRealX x(f);
+			sr=(SRealX)x;
+			break;
+			}
+		case EAssignFloat:
+			{
+			TReal32 f;
+			TInt *pF=(TInt*)&f;
+			*pF=iOperand;
+			TRealX x;
+			x=f;
+			sr=(SRealX)x;
+			break;
+			}
+		case ESetFloat:
+			{
+			TReal32 f;
+			TInt *pF=(TInt*)&f;
+			*pF=iOperand;
+			TRealX x;
+			r=x.Set(f);
+			sr=(SRealX)x;
+			break;
+			}
+		}
+	if (sr==iResult && r==iReturnCode)
+		return;
+	test.Printf(_L("Conversion %d from 32 bit operand test failed\noperand = %08X\n"),
+		(TInt)aConversion, iOperand );
+	test.Printf(_L("Result %08X %08X %08X\nReturn code %d\n"),
+		sr.iExpFlagSign, sr.iMantHigh, sr.iMantLow, r );
+	test.Printf(_L("Correct result %08X %08X %08X\nCorrect return code %d\n"),
+		iResult.iExpFlagSign, iResult.iMantHigh, iResult.iMantLow, iReturnCode );
+	//test.Getch();
+	test(0);
+	}
+
+SConvertFrom64BitTest::SConvertFrom64BitTest(TInt64 op, const SRealX& res, TInt r)
+	{
+	iOperand=op;
+	iResult=res;
+	iReturnCode=r;
+	}
+
+void SConvertFrom64BitTest::Test(TConversionFrom64Bits aConversion) const
+	{
+	TInt r=iReturnCode;
+	SRealX sr;
+	switch(aConversion)
+		{
+		case EConstructInt64:
+			{
+			TRealX x(iOperand);
+			sr=(SRealX)x;
+			break;
+			}
+		case EAssignInt64:
+			{
+			TRealX x;
+			x=iOperand;
+			sr=(SRealX)x;
+			break;
+			}
+		case ESetInt64:
+			{
+			TRealX x;
+			r=x.Set(iOperand);
+			sr=(SRealX)x;
+			break;
+			}
+/*		case EConstructUint:
+			{
+			TUint uint=(TUint)iOperand;
+			TRealX x(uint);
+			sr=(SRealX)x;
+			break;
+			}
+		case EAssignUint:
+			{
+			TUint uint=(TUint)iOperand;
+			TRealX x;
+			x=uint;
+			sr=(SRealX)x;
+			break;
+			}
+		case ESetUint:
+			{
+			TUint uint=(TUint)iOperand;
+			TRealX x;
+			r=x.Set(uint);
+			sr=(SRealX)x;
+			break;
+			}*/
+		case EConstructDouble:
+			{
+			TReal64 d;
+			TInt64ToTReal64(&d, &iOperand);
+			TRealX x(d);
+			sr=(SRealX)x;
+			break;
+			}
+		case EAssignDouble:
+			{
+			TReal64 d;
+			TInt64ToTReal64(&d, &iOperand);
+			TRealX x;
+			x=d;
+			sr=(SRealX)x;
+			break;
+			}
+		case ESetDouble:
+			{
+			TReal64 d;
+			TInt64ToTReal64(&d, &iOperand);
+			TRealX x;
+			r=x.Set(d);
+			sr=(SRealX)x;
+			break;
+			}
+		}
+	if (sr==iResult && r==iReturnCode)
+		return;
+	test.Printf(_L("Conversion %d from 64 bit operand test failed\noperand = %08X %08X\n"),
+		(TInt)aConversion, I64HIGH(iOperand), I64LOW(iOperand) );
+	test.Printf(_L("Result %08X %08X %08X\nReturn code %d\n"),
+		sr.iExpFlagSign, sr.iMantHigh, sr.iMantLow, r );
+	test.Printf(_L("Correct result %08X %08X %08X\nCorrect return code %d\n"),
+		iResult.iExpFlagSign, iResult.iMantHigh, iResult.iMantLow, iReturnCode );
+	//test.Getch();
+	test(0);
+	}
+
+SConvertTo32BitTest::SConvertTo32BitTest(const SRealX& op, TInt res, TInt r)
+	{
+	iOperand=op;
+	iResult=res;
+	iReturnCode=r;
+	}
+
+void SConvertTo32BitTest::Test(TConversionTo32Bits aConversion) const
+	{
+	TInt r=iReturnCode;
+	TRealX op=(TRealX)iOperand;
+	TInt result=0;
+	switch(aConversion)
+		{
+		case EOperatorInt:
+			result=(TInt)op;
+			break;
+		case EOperatorUint:
+			{
+			TUint uint;
+			uint=(TUint)op;
+			result=(TInt)uint;
+			break;
+			}
+		case EOperatorTReal32:
+			{
+			TReal32 x;
+			x=(TReal32)op;
+			result=*((TInt*)&x);
+			break;
+			}
+		case EGetTReal32:
+			{
+			TReal32 x;
+			r=op.GetTReal(x);
+			result=*((TInt*)&x);
+			break;
+			}
+		}
+	if (result==iResult && r==iReturnCode)
+		return;
+	test.Printf(_L("Conversion %d to 32 bit operand test failed\noperand = %08X %08X %08X\n"),
+		(TInt)aConversion, iOperand.iExpFlagSign, iOperand.iMantHigh, iOperand.iMantLow );
+	test.Printf(_L("Result %08X\nReturn code %d\n"),
+		result, r );
+	test.Printf(_L("Correct result %08X\nCorrect return code %d\n"),
+		iResult, iReturnCode );
+	//test.Getch();
+	test(0);
+	}
+
+SConvertTo64BitTest::SConvertTo64BitTest(const SRealX& op, TInt64 res, TInt r)
+	{
+	iOperand=op;
+	iResult=res;
+	iReturnCode=r;
+	}
+
+void SConvertTo64BitTest::Test(TConversionTo64Bits aConversion) const
+	{
+	TInt r=iReturnCode;
+	TRealX op=(TRealX)iOperand;
+	TInt64 result=0;
+	switch(aConversion)
+		{
+		case EOperatorInt64:
+			result=op.operator TInt64();  // odd conversion syntax required for VC5 compilation
+			break;
+		case EOperatorTReal64:
+			{
+			TReal64 d;
+			d=(TReal64)op;
+			TReal64ToTInt64(&result, &d);
+			break;
+			}
+		case EGetTReal64:
+			{
+			TReal64 d;
+			r=op.GetTReal(d);
+			TReal64ToTInt64(&result, &d);
+			break;
+			}
+		}
+	if (result==iResult && r==iReturnCode)
+		return;
+	test.Printf(_L("Conversion %d to 64 bit operand test failed\noperand = %08X %08X %08X\n"),
+		(TInt)aConversion, iOperand.iExpFlagSign, iOperand.iMantHigh, iOperand.iMantLow );
+	test.Printf(_L("Result %08X %08X\nReturn code %d\n"),
+		I64HIGH(result), I64LOW(result), r );
+	test.Printf(_L("Correct result %08X %08X\nCorrect return code %d\n"),
+		I64HIGH(iResult), I64LOW(iResult), iReturnCode );
+	//test.Getch();
+	test(0);
+	}
+
+SCompareTest::SCompareTest(const SRealX& o1, const SRealX& o2, TInt r)
+	{
+	iOperand1=o1;
+	iOperand2=o2;
+	iReturnCode=r;
+	}
+
+void SCompareTest::Test() const
+	{
+	TRealX op1=(TRealX)iOperand1;
+	TRealX op2=(TRealX)iOperand2;
+	TRealX::TRealXOrder r=op1.Compare(op2);
+	TBool lt=op1<op2;
+	TBool le=op1<=op2;
+	TBool gt=op1>op2;
+	TBool ge=op1>=op2;
+	TBool eq=op1==op2;
+	TBool ne=op1!=op2;
+	if ((TInt)r==iReturnCode)
+		{
+		switch(r)
+			{
+			case TRealX::ELessThan:
+				if (lt && le && !gt && !ge && !eq && ne)
+					return;
+				break;
+
+			case TRealX::EEqual:
+				if (!lt && le && !gt && ge && eq && !ne)
+					return;
+				break;
+			case TRealX::EGreaterThan:
+				if (!lt && !le && gt && ge && !eq && ne)
+					return;
+				break;
+
+			case TRealX::EUnordered:
+				if (!lt && !le && !gt && !ge && !eq && ne)
+					return;
+				break;
+			}
+		}
+	test.Printf(_L("Compare test failed\nop1 = %08X %08X %08X\nop2 = %08X %08X %08X\n"),
+		iOperand1.iExpFlagSign, iOperand1.iMantHigh, iOperand1.iMantLow,
+		iOperand2.iExpFlagSign, iOperand2.iMantHigh, iOperand2.iMantLow );
+	test.Printf(_L("Return code %d\nlt=%d, le=%d, gt=%d, ge=%d, eq=%d, ne=%d\n"),
+		r, lt, le, gt, ge, eq, ne );
+	//test.Getch();
+	test(0);
+	}
+
+SOneOpTest::SOneOpTest(const SRealX& op, const SRealX& res, TInt r)
+	{
+	iOperand=op;
+	iResult=res;
+	iReturnCode=r;
+	}
+
+TInt SOneOpTest::DoTest(TUnaryOperation anOperation, TRealX *aResult) const
+	{
+	TInt r=KErrNone;
+	TRealX op;
+	*aResult=(TRealX)iOperand;
+
+	switch(anOperation)
+		{
+		case EUnaryPlus:
+			*aResult=+(*aResult);
+			break;
+		case EUnaryMinus:
+			*aResult=-(*aResult);
+			break;
+		case EPreInc:
+			++*aResult;
+			break;
+		case EPreDec:
+			--*aResult;
+			break;
+		case EPostInc:
+			op=(*aResult)++;
+			if (!(SRealX(op)==iOperand))
+				r=KErrGeneral;
+			break;
+		case EPostDec:
+			op=(*aResult)--;
+			if (!(SRealX(op)==iOperand))
+				r=KErrGeneral;
+			break;
+		}
+	return r;
+	}
+
+TInt OneOpTestThreadFunction(TAny *anInfo)
+	{
+	SOneOpTestThreadInfo *pI=(SOneOpTestThreadInfo *)anInfo;
+	TInt r=pI->iTest->DoTest(pI->iOperation,pI->iResult);
+	return r;
+	}
+
+void SOneOpTest::Test(TUnaryOperation anOperation) const
+	{
+	SOneOpTestThreadInfo info;
+	TRealX result;
+	info.iTest=this;
+	info.iOperation=anOperation;
+	info.iResult=&result;
+	RThread t;
+	TInt r=t.Create(_L("TestThread"),OneOpTestThreadFunction,0x1000,0x1000,0x100000,&info);
+	test(r==KErrNone);
+	t.SetPriority(EPriorityMore);	// so we will not run again until thread terminates
+	TRequestStatus s;
+	t.Logon(s);
+	t.Resume();
+	User::WaitForRequest(s);
+	TExitType exittype=t.ExitType();
+	r=s.Int();
+	CLOSE_AND_WAIT(t);
+	SRealX sr(result);
+	if (sr==iResult && r==iReturnCode)
+		{
+		if (anOperation>EUnaryMinus)
+			{
+			if (r==KErrNone && exittype==EExitKill)
+				return;
+			if (r!=KErrNone && exittype==EExitPanic)
+				return;
+			}
+		else
+			{
+			if (exittype==EExitKill)
+				return;
+			}
+		}
+	
+	test.Printf(_L("Unary operation %d test failed\nop = %08X %08X %08X\n"),
+		(TInt)anOperation,
+		iOperand.iExpFlagSign, iOperand.iMantHigh, iOperand.iMantLow );
+	test.Printf(_L("Result %08X %08X %08X\nReturn code %d Exit type %d\n"),
+		sr.iExpFlagSign, sr.iMantHigh, sr.iMantLow, r, (TInt)exittype );
+	test.Printf(_L("Correct result %08X %08X %08X\nCorrect return code %d\n"),
+		iResult.iExpFlagSign, iResult.iMantHigh, iResult.iMantLow, iReturnCode );
+	//test.Getch();
+	test(0);
+	}
+
+STwoOpTest::STwoOpTest(const SRealX& o1, const SRealX& o2, const SRealX& res, TInt r)
+	{
+	iOperand1=o1;
+	iOperand2=o2;
+	iResult=res;
+	iReturnCode=r;
+	}
+
+TInt STwoOpTest::DoTest(TBinaryOperation anOperation, TRealX *aResult, TBool aSwap) const
+	{
+	TInt r=KErrNone;
+	TRealX op1, op2;
+	if (aSwap)
+		{
+		op2=(TRealX)iOperand1;
+		op1=(TRealX)iOperand2;
+		*aResult=(TRealX)iOperand2;
+		}
+	else
+		{
+		op1=(TRealX)iOperand1;
+		op2=(TRealX)iOperand2;
+		*aResult=(TRealX)iOperand1;
+		}
+
+	switch(anOperation)
+		{
+		case EAddEq:
+			r=aResult->AddEq(op2);
+			break;
+		case ESubEq:
+			r=aResult->SubEq(op2);
+			break;
+		case EMultEq:
+			r=aResult->MultEq(op2);
+			break;
+		case EDivEq:
+			r=aResult->DivEq(op2);
+			break;
+		case EAdd:
+			r=op1.Add(*aResult,op2);
+			break;
+		case ESub:
+			r=op1.Sub(*aResult,op2);
+			break;
+		case EMult:
+			r=op1.Mult(*aResult,op2);
+			break;
+		case EDiv:
+			r=op1.Div(*aResult,op2);
+			break;
+		case EPlusEq:
+			*aResult+=op2;
+			break;
+		case EMinusEq:
+			*aResult-=op2;
+			break;
+		case EStarEq:
+			*aResult*=op2;
+			break;
+		case ESlashEq:
+			*aResult/=op2;
+			break;
+		case EPlus:
+			*aResult=op1+op2;
+			break;
+		case EMinus:
+			*aResult=op1-op2;
+			break;
+		case EStar:
+			*aResult=op1*op2;
+			break;
+		case ESlash:
+			*aResult=op1/op2;
+			break;
+		}
+	return r;
+	}
+
+TInt TwoOpTestThreadFunction(TAny *anInfo)
+	{
+	STwoOpTestThreadInfo *pI=(STwoOpTestThreadInfo *)anInfo;
+	TInt r=pI->iTest->DoTest(pI->iOperation,pI->iResult,pI->iSwap);
+	return r;
+	}
+
+void STwoOpTest::Test(TBinaryOperation anOperation, TBool aSwap) const
+	{
+	STwoOpTestThreadInfo info;
+	TRealX result;
+	info.iTest=this;
+	info.iOperation=anOperation;
+	info.iResult=&result;
+	info.iSwap=aSwap;
+	RThread t;
+	TInt r=t.Create(_L("TestThread"),TwoOpTestThreadFunction,0x1000,0x1000,0x100000,&info);
+	test(r==KErrNone);
+	t.SetPriority(EPriorityMore);	// so we will not run again until thread terminates
+	TRequestStatus s;
+	t.Logon(s);
+	t.Resume();
+	User::WaitForRequest(s);
+	TExitType exittype=t.ExitType();
+	r=s.Int();
+	CLOSE_AND_WAIT(t);
+	SRealX sr(result);
+	if (anOperation>=EPlus && exittype==EExitPanic)
+		{
+		// if +,-,*,/ operation paniced, result will be lost
+		sr=iResult;
+		}
+	if (sr==iResult && r==iReturnCode)
+		{
+		if (anOperation>=EPlusEq)
+			{
+			if (r==KErrNone && exittype==EExitKill)
+				return;
+			if (r!=KErrNone && exittype==EExitPanic)
+				return;
+			}
+		else
+			{
+			if (exittype==EExitKill)
+				return;
+			}
+		}
+	
+	test.Printf(_L("Binary operation %d test failed\nop1 = %08X %08X %08X\nop2 = %08X %08X %08X\n"),
+		(TInt)anOperation,
+		iOperand1.iExpFlagSign, iOperand1.iMantHigh, iOperand1.iMantLow,
+		iOperand2.iExpFlagSign, iOperand2.iMantHigh, iOperand2.iMantLow );
+	test.Printf(_L("Result %08X %08X %08X\nReturn code %d Exit type %d\n"),
+		sr.iExpFlagSign, sr.iMantHigh, sr.iMantLow, r, (TInt)exittype );
+	test.Printf(_L("Correct result %08X %08X %08X\nCorrect return code %d\n"),
+		iResult.iExpFlagSign, iResult.iMantHigh, iResult.iMantLow, iReturnCode );
+	//test.Getch();
+	test(0);
+	}
+
+SSpecialValueTest::SSpecialValueTest(const SRealX& op, TInt aResults)
+	{
+	iOperand=op;
+	iIsZero=aResults & 8;
+	iIsNaN=aResults & 4;
+	iIsInfinite=aResults & 2;
+	iIsFinite=aResults & 1;
+	}
+
+LOCAL_C TBool same(TBool a, TBool b)
+	{
+	return( (a && b) || (!a && !b) );
+	}
+
+void SSpecialValueTest::Test() const
+	{
+	TRealX x=(TRealX)iOperand;
+	TBool isZero=x.IsZero();
+	TBool isNaN=x.IsNaN();
+	TBool isInfinite=x.IsInfinite();
+	TBool isFinite=x.IsFinite();
+	if ( same(isZero,iIsZero) && same(isNaN,iIsNaN) && same(isInfinite,iIsInfinite) && same(isFinite,iIsFinite) )
+		return;
+	test.Printf(_L("Special value test failed\nOperand %08X %08X %08X\n"),
+		iOperand.iExpFlagSign, iOperand.iMantHigh, iOperand.iMantLow );
+	test.Printf(_L("Results IsZero=%d, IsNaN=%d, IsInfinite=%d, IsFinite=%d "),
+		isZero, isNaN, isInfinite, isFinite );
+	test.Printf(_L("Correct results IsZero=%d, IsNaN=%d, IsInfinite=%d, IsFinite=%d "),
+		iIsZero, iIsNaN, iIsInfinite, iIsFinite );
+	//test.Getch();
+	test(0);
+	}
+
+LOCAL_C void TestAssignConstruct()
+	{
+	TInt i;
+
+	// test default constructor
+	TRealX z;
+	SRealX sz(z);
+	test(sz.iExpFlagSign==0);
+	test(sz.iMantHigh==0);
+	test(sz.iMantLow==0);
+
+	for (i=0; i<NumConvertFromIntTests; i++)
+		{
+		const SConvertFrom32BitTest *pT=&(ConvertFromIntTests[i]);
+		pT->Test(EConstructInt);
+		pT->Test(EAssignInt);
+		pT->Test(ESetInt);
+		}
+	for (i=0; i<NumConvertFromUintTests; i++)
+		{
+		const SConvertFrom32BitTest *pT=&(ConvertFromUintTests[i]);
+		pT->Test(EConstructUint);
+		pT->Test(EAssignUint);
+		pT->Test(ESetUint);
+		}
+	for (i=0; i<NumConvertFromInt64Tests; i++)
+		{
+		const SConvertFrom64BitTest *pT=&(ConvertFromInt64Tests[i]);
+		pT->Test(EConstructInt64);
+		pT->Test(EAssignInt64);
+		pT->Test(ESetInt64);
+		}
+	for (i=0; i<NumConvertFromFloatTests; i++)
+		{
+		const SConvertFrom32BitTest *pT=&(ConvertFromFloatTests[i]);
+		pT->Test(EConstructFloat);
+		pT->Test(EAssignFloat);
+		pT->Test(ESetFloat);
+		}
+	for (i=0; i<NumConvertFromDoubleTests; i++)
+		{
+		const SConvertFrom64BitTest *pT=&(ConvertFromDoubleTests[i]);
+		pT->Test(EConstructDouble);
+		pT->Test(EAssignDouble);
+		pT->Test(ESetDouble);
+		}
+	}
+
+LOCAL_C void TestConversions()
+	{
+	TInt i;
+	for (i=0; i<NumConvertToIntTests; i++)
+		{
+		const SConvertTo32BitTest *pT=&(ConvertToIntTests[i]);
+		pT->Test(EOperatorInt);
+		}
+	for (i=0; i<NumConvertToUintTests; i++)
+		{
+		const SConvertTo32BitTest *pT=&(ConvertToUintTests[i]);
+		pT->Test(EOperatorUint);
+		}
+	for (i=0; i<NumConvertToInt64Tests; i++)
+		{
+		const SConvertTo64BitTest *pT=&(ConvertToInt64Tests[i]);
+		pT->Test(EOperatorInt64);
+		}
+	for (i=0; i<NumConvertToFloatTests; i++)
+		{
+		const SConvertTo32BitTest *pT=&(ConvertToFloatTests[i]);
+		pT->Test(EOperatorTReal32);
+		pT->Test(EGetTReal32);
+		}
+	for (i=0; i<NumConvertToDoubleTests; i++)
+		{
+		const SConvertTo64BitTest *pT=&(ConvertToDoubleTests[i]);
+		pT->Test(EOperatorTReal64);
+		pT->Test(EGetTReal64);
+		}
+	}
+
+LOCAL_C void TestSpecials()
+	{
+	TRealX x;
+	SRealX sx;
+	x.SetInfinite(EFalse);
+	sx=x;
+	test(sx.iExpFlagSign==0xFFFF0000);
+	test(sx.iMantHigh==0x80000000);
+	test(sx.iMantLow==0);
+	x.SetZero();
+	sx=x;
+	test(sx.iExpFlagSign==0x00000000);
+	x.SetInfinite(ETrue);
+	sx=x;
+	test(sx.iExpFlagSign==0xFFFF0001);
+	test(sx.iMantHigh==0x80000000);
+	test(sx.iMantLow==0);
+	x.SetNaN();
+	sx=x;
+	test(sx.iExpFlagSign==0xFFFF0001);
+	test(sx.iMantHigh==0xC0000000);
+	test(sx.iMantLow==0);
+	x.SetZero(ETrue);
+	sx=x;
+	test(sx.iExpFlagSign==0x00000001);
+
+	TInt i;
+	for(i=0; i<NumSpecialValueTests; i++)
+		{
+		const SSpecialValueTest *pT=&(SpecialValueTests[i]);
+		pT->Test();
+		}
+	}
+
+LOCAL_C void TestUnaryOperators()
+	{
+	TInt i;
+	for (i=0; i<NumUnaryPlusTests; i++)
+		{
+		const SOneOpTest *pT=&(UnaryPlusTests[i]);
+		pT->Test(EUnaryPlus);
+		}
+	for (i=0; i<NumUnaryMinusTests; i++)
+		{
+		const SOneOpTest *pT=&(UnaryMinusTests[i]);
+		pT->Test(EUnaryMinus);
+		}
+	for (i=0; i<NumIncTests; i++)
+		{
+		const SOneOpTest *pT=&(IncTests[i]);
+		pT->Test(EPreInc);
+		pT->Test(EPostInc);
+		}
+	for (i=0; i<NumDecTests; i++)
+		{
+		const SOneOpTest *pT=&(DecTests[i]);
+		pT->Test(EPreDec);
+		pT->Test(EPostDec);
+		}
+	}
+
+LOCAL_C void TestAddition()
+	{
+	TInt i;
+	for (i=0; i<NumAdditionTests; i++)
+		{
+		const STwoOpTest *pT=&(AdditionTests[i]);
+		pT->Test(EAddEq,EFalse);
+		pT->Test(EAddEq,ETrue);
+		pT->Test(EAdd,EFalse);
+		pT->Test(EAdd,ETrue);
+		pT->Test(EPlusEq,EFalse);
+		pT->Test(EPlusEq,ETrue);
+		pT->Test(EPlus,EFalse);
+		pT->Test(EPlus,ETrue);
+		}
+	for (i=0; i<NumBinaryOpNaNTests; i++)
+		{
+		const STwoOpTest *pT=&(BinaryOpNaNTests[i]);
+		pT->Test(EAddEq,EFalse);
+		pT->Test(EAddEq,ETrue);
+		pT->Test(EAdd,EFalse);
+		pT->Test(EAdd,ETrue);
+		pT->Test(EPlusEq,EFalse);
+		pT->Test(EPlusEq,ETrue);
+		pT->Test(EPlus,EFalse);
+		pT->Test(EPlus,ETrue);
+		}
+	}
+
+LOCAL_C void TestMultiplication()
+	{
+	TInt i;
+	for (i=0; i<NumMultiplicationTests; i++)
+		{
+		const STwoOpTest *pT=&(MultiplicationTests[i]);
+		pT->Test(EMultEq,EFalse);
+		pT->Test(EMultEq,ETrue);
+		pT->Test(EMult,EFalse);
+		pT->Test(EMult,ETrue);
+		pT->Test(EStarEq,EFalse);
+		pT->Test(EStarEq,ETrue);
+		pT->Test(EStar,EFalse);
+		pT->Test(EStar,ETrue);
+		}
+	for (i=0; i<NumBinaryOpNaNTests; i++)
+		{
+		const STwoOpTest *pT=&(BinaryOpNaNTests[i]);
+		pT->Test(EMultEq,EFalse);
+		pT->Test(EMultEq,ETrue);
+		pT->Test(EMult,EFalse);
+		pT->Test(EMult,ETrue);
+		pT->Test(EStarEq,EFalse);
+		pT->Test(EStarEq,ETrue);
+		pT->Test(EStar,EFalse);
+		pT->Test(EStar,ETrue);
+		}
+	}
+
+LOCAL_C void TestDivision()
+	{
+	TInt i;
+	for (i=0; i<NumDivisionTests; i++)
+		{
+		const STwoOpTest *pT=&(DivisionTests[i]);
+		pT->Test(EDivEq,EFalse);
+		pT->Test(EDiv,EFalse);
+		pT->Test(ESlashEq,EFalse);
+		pT->Test(ESlash,EFalse);
+		}
+	for (i=0; i<NumBinaryOpNaNTests; i++)
+		{
+		const STwoOpTest *pT=&(BinaryOpNaNTests[i]);
+		pT->Test(EDivEq,EFalse);
+		pT->Test(EDiv,EFalse);
+		pT->Test(ESlashEq,EFalse);
+		pT->Test(ESlash,EFalse);
+		}
+	}
+
+LOCAL_C void TestComparison()
+	{
+	TInt i;
+	for (i=0; i<NumComparisonTests; i++)
+		{
+		const SCompareTest *pT=&(ComparisonTests[i]);
+		pT->Test();
+		}
+	}
+
+
+GLDEF_C TInt E32Main()
+//
+//	Test TRealX
+//
+    {
+
+	User::SetJustInTime(EFalse);
+	test.Title();
+	test.Start(_L("Assignment Operator and Constructors"));	
+	TestAssignConstruct();
+	test.Next(_L("Conversions"));
+	TestConversions();
+	test.Next(_L("Setting and Checking Specials"));
+	TestSpecials();
+	test.Next(_L("Addition"));
+	TestAddition();
+	test.Next(_L("Multiplication"));
+	TestMultiplication();
+	test.Next(_L("Division"));
+	TestDivision();
+	test.Next(_L("Unary Operators"));
+	TestUnaryOperators();
+	test.Next(_L("Comparisons"));
+	TestComparison();
+	
+	test.End();
+	return(KErrNone);
+    }