MCL/sf/os/kernelhwsrv: comparison kernel/eka/euser/epoc/arm/uc

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+:a41df078684a
+// 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:
+// e32\euser\epoc\arm\uc_realx.cpp
+//
+//
+#include "u32std.h"
+#include <e32math.h>
+GLDEF_C void PanicOverUnderflowDividebyZero(const TInt aErr)
+//
+// Panics if there is an overflow or underflow or divide by zero
+//
+	{
+//	if (aErr==KErrOverflow)
+//		Panic(EMathOverflow);
+//	if (aErr==KErrUnderflow)
+//		Panic(EMathUnderflow);
+//	if (aErr==KErrDivideByZero)
+//		Panic(EMathDivideByZero);
+//	if (aErr==KErrArgument)
+//		Panic(EMathBadOperand);
+	User::Panic(_L("MATHX"),aErr);
+	}
+#ifdef __REALS_MACHINE_CODED__
+extern "C" void __math_exception(TInt aErrType)
+//
+// Decides on type of maths exception according to error and raises exception.
+// Added by AnnW, December 1996
+//
+	{
+	TExcType excType=EExcGeneral;
+	switch (aErrType)
+		{
+	case KErrArgument:				// error due to invalid operation
+		excType=EExcFloatInvalidOperation;
+		break;
+	case KErrDivideByZero:
+		excType=EExcFloatDivideByZero;
+		break;
+	case KErrOverflow:
+		excType=EExcFloatOverflow;
+		break;
+	case KErrUnderflow:
+		excType=EExcFloatUnderflow;
+		break;
+/*
+	// also errors due to inexact result
+	case KErrInexact:		// const not defined yet
+		excType=EExcFloatInexact;
+		break;
+*/
+	default:
+		// Unknown error
+//		Panic(EMathUnknownError);
+		User::Panic(_L("MATHX"),KErrGeneral);
+		}
+	User::RaiseException(excType);
+	}
+#endif
+#ifdef __EABI_CTORS__
+EXPORT_C TRealX::TRealX()
+/**
+Constructs a default extended precision object.
+This sets the value to zero.
+*/
+	{
+	// Be Brutal (this should be as efficient as the naked versions)
+TUint * me = (TUint *)this;
+	me[0]=me[1]=me[2]=0;
+	}
+EXPORT_C TRealX::TRealX(TUint anExp, TUint aMantHi, TUint aMantLo)
+/**
+Constructs an extended precision object from an explicit exponent and
+a 64 bit mantissa.
+@param anExp   The exponent
+@param aMantHi The high order 32 bits of the 64 bit mantissa
+@param aMantLo The low order 32 bits of the 64 bit mantissa
+*/
+	{
+	// Be Brutal (this should be as efficient as the naked versions)
+TUint * me = (TUint *)this;
+	me[0]=aMantLo;
+	me[1]=aMantHi;
+	me[2]=anExp;
+	}
+EXPORT_C TRealX::TRealX(TInt anInt)
+/**
+Constructs an extended precision object from a signed integer value.
+@param anInt The signed integer value.
+*/
+	{
+	TRealX::operator=(anInt);
+	}
+EXPORT_C TRealX::TRealX(const TInt64& anInt)
+/**
+Constructs an extended precision object from a 64 bit integer.
+@param anInt A reference to a 64 bit integer.
+*/
+	{
+	TRealX::operator=(anInt);
+	}
+EXPORT_C TRealX::TRealX(TUint anInt)
+/**
+Constructs an extended precision object from an unsigned integer value.
+@param anInt The unsigned integer value.
+*/
+	{
+	TRealX::operator=(anInt);
+	}
+EXPORT_C TRealX::TRealX(TReal32 aReal)__SOFTFP
+/**
+Constructs an extended precision object from
+a single precision floating point number.
+@param aReal The single precision floating point value.
+*/
+	{
+	TRealX::operator=(aReal);
+	}
+EXPORT_C TRealX::TRealX(TReal64 aReal)__SOFTFP
+/**
+Constructs an extended precision object from
+a double precision floating point number.
+@param aReal The double precision floating point value.
+*/
+	{
+	TRealX::operator=(aReal);
+	}
+#endif