diff -r 000000000000 -r bde4ae8d615e os/kernelhwsrv/kerneltest/f32test/math/t_gen.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/os/kernelhwsrv/kerneltest/f32test/math/t_gen.cpp Fri Jun 15 03:10:57 2012 +0200 @@ -0,0 +1,507 @@ +// Copyright (c) 1996-2009 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: +// f32test\math\t_gen.cpp +// Generates files to be used in testing whether arithmetic in TReal32 and TReal64 gives +// exactly the same results using the MSDEV complier as on the rack. +// +// + +#include +#include +#include +#include "../server/t_server.h" +#include "t_math.h" + +GLDEF_D RTest test(_L("T_GEN")); + +LOCAL_D const TFileName pathName = _L("C:\\F32-TST\\E32-MATH\\"); +LOCAL_D TBuf<0x100> buf; +LOCAL_D TBuf8<0x100> buf8; + + +#define __GENERATE_SPECIAL_VALUES +#ifdef __GENERATE_SPECIAL_VALUES + +LOCAL_D RFile fspw; // file for special values for WINS +LOCAL_D RFile fspa; // file for special values for ARM + +LOCAL_D const TFileName fileNameWSp = _L("T_VALS.HWG"); +LOCAL_D const TFileName fileNameASp = _L("T_VALS.HAG"); + +LOCAL_C void appendConstTI64(TPtrC aName,TReal64* aVal) + { + // for WINS + buf=_L(""); + buf.AppendFormat(_L("const TInt64 %S = TInt64(0x%x,0x%x);\n"),&aName,*(((TUint32*)aVal) + 1),*(TUint32*)aVal); + buf8.Copy(buf); // Unicode + fspw.Write(buf8); + // for ARM + buf=_L(""); + buf.AppendFormat(_L("const TInt64 %S = TInt64(0x%x,0x%x);\n"),&aName,*(TUint32*)aVal,*(((TUint32*)aVal) + 1)); + buf8.Copy(buf); + fspa.Write(buf8); + } + +LOCAL_C void appendConstTI32x(TPtrC aName,TReal32* aVal) + { + // for WINS and ARM + buf=_L(""); + buf.AppendFormat(_L("const TInt32x %S = TInt32x(0x%x);\n"),&aName,*(TUint32*)aVal); + buf8.Copy(buf); // Unicode + fspw.Write(buf8); + fspa.Write(buf8); + } + +LOCAL_C void appendConstTR64(TPtrC aName,TPtrC aIntName) + { + // for WINS and ARM + buf=_L(""); + buf.AppendFormat(_L("const TReal64 %S = *(TReal64*)&%S;\n"),&aName,&aIntName); + buf8.Copy(buf); // Unicode + fspw.Write(buf8); + fspa.Write(buf8); + } + +LOCAL_C void appendConstTR32(TPtrC aName,TPtrC aIntName) + { + // for WINS and ARM + buf=_L(""); + buf.AppendFormat(_L("const TReal32 %S = *(TReal32*)&%S;\n"),&aName,&aIntName); + buf8.Copy(buf); + fspw.Write(buf8); + fspa.Write(buf8); + } + +LOCAL_C void appendConstTR(TPtrC aName,TPtrC a64Name) + { + // for WINS and ARM + buf=_L(""); + buf.AppendFormat(_L("const TReal %S = TReal(%S);\n"),&aName,&a64Name); + buf8.Copy(buf); // Unicode + fspw.Write(buf8); + fspa.Write(buf8); + } + +LOCAL_C void appendStart() + { + // for WINS + fspw.Write(_L8("/* Generated by \\E32\\TMATH\\T_GEN.MAK for WINS (little-endian doubles) */\n\n")); + fspw.Write(_L8("#include \n\n")); + fspw.Write(_L8("class TInt32x\n{\npublic:\n")); + fspw.Write(_L8("TInt32x(TInt32 aInt) {iInt=aInt;}\n")); + fspw.Write(_L8("public:\nTInt32 iInt;\n};\n\n")); + + // for ARM + fspa.Write(_L8("/* Generated by \\E32\\TMATH\\T_GEN.MAK for ARM (big-endian doubles)*/\n\n")); + fspa.Write(_L8("#include \n\n")); + fspa.Write(_L8("class TInt32x\n{\npublic:\n")); + fspa.Write(_L8("TInt32x(TInt32 aInt) {iInt=aInt;}\n")); + fspa.Write(_L8("public:\nTInt32 iInt;\n};\n\n")); + } + +LOCAL_C void generateSpecialValues() +// +// The following are to avoid the errors in the compiler in converting from string +// to floating point +// +// Initialise max/min values and square roots and write to header files +// + { + + TReal64 minTReal32in64; + SReal64 *p64=(SReal64*)&minTReal32in64; + p64->sign=0; + p64->exp=0x381; + p64->msm=0; + p64->lsm=0; + + TReal64 maxTReal32in64; + p64=(SReal64*)&maxTReal32in64; + p64->sign=0; + p64->exp=0x47E; + p64->msm=0xfffff; + p64->lsm=0xe0000000; + + TReal64 sqrtMaxTReal64; + const TReal64 arg1=KMaxTReal64-1.0E+299; // Take off this to avoid overflow + TInt ret=Math::Sqrt(sqrtMaxTReal64,arg1); + TReal64 sqrtMinTReal64; + const TReal64 arg2=KMinTReal64; + ret=Math::Sqrt(sqrtMinTReal64,arg2); + + TReal64 sqrtMaxTReal32in64,sqrtMinTReal32in64; + + TReal64 negZeroTReal64; + p64=(SReal64*)&negZeroTReal64; + p64->sign=1; + p64->exp=0; + p64->msm=0; + p64->lsm=0; + + TReal64 posInfTReal64; + p64=(SReal64*)&posInfTReal64; + p64->sign=0; + p64->exp=KTReal64SpecialExponent; + p64->msm=0; + p64->lsm=0; + + TReal64 negInfTReal64; + p64=(SReal64*)&negInfTReal64; + p64->sign=1; + p64->exp=KTReal64SpecialExponent; + p64->msm=0; + p64->lsm=0; + + TReal64 NaNTReal64; + p64=(SReal64*)&NaNTReal64; + p64->sign=0; + p64->exp=KTReal64SpecialExponent; + p64->msm=0xfffffu; + p64->lsm=0xffffffffu; + + TReal32 sqrtMaxTReal32; + const TReal arg3=maxTReal32in64-1.0E+32f; // Take off this to avoid overflow + ret=Math::Sqrt(sqrtMaxTReal32in64,arg3); + sqrtMaxTReal32=TReal32(sqrtMaxTReal32in64); + + TReal32 sqrtMinTReal32; + const TReal arg4=minTReal32in64; + ret=Math::Sqrt(sqrtMinTReal32in64,arg4); + sqrtMinTReal32=TReal32(sqrtMinTReal32in64); + + TReal32 negZeroTReal32; + SReal32 *p32=(SReal32*)&negZeroTReal32; + p32->sign=1; + p32->exp=0; + p32->man=0; + + appendStart(); + + appendConstTI64(_L("minTReal32in64"),&minTReal32in64); + appendConstTI64(_L("maxTReal32in64"),&maxTReal32in64); + appendConstTI64(_L("sqrtMaxTReal64"),&sqrtMaxTReal64); + appendConstTI64(_L("sqrtMinTReal64"),&sqrtMinTReal64); + appendConstTI64(_L("negZeroTReal64"),&negZeroTReal64); + appendConstTI64(_L("posInfTReal64"),&posInfTReal64); + appendConstTI64(_L("negInfTReal64"),&negInfTReal64); + appendConstTI64(_L("NaNTReal64"),&NaNTReal64); + + appendConstTI32x(_L("sqrtMaxTReal32"),&sqrtMaxTReal32); + appendConstTI32x(_L("sqrtMinTReal32"),&sqrtMinTReal32); + appendConstTI32x(_L("negZeroTReal32"),&negZeroTReal32); + + appendConstTR64(_L("KMinTReal32in64"),_L("minTReal32in64")); + appendConstTR64(_L("KMaxTReal32in64"),_L("maxTReal32in64")); + appendConstTR64(_L("KSqrtMaxTReal64"),_L("sqrtMaxTReal64")); + appendConstTR64(_L("KSqrtMinTReal64"),_L("sqrtMinTReal64")); + appendConstTR64(_L("KNegZeroTReal64"),_L("negZeroTReal64")); + appendConstTR64(_L("KPosInfTReal64"),_L("posInfTReal64")); + appendConstTR64(_L("KNegInfTReal64"),_L("negInfTReal64")); + appendConstTR64(_L("KNaNTReal64"),_L("NaNTReal64")); + + appendConstTR32(_L("KSqrtMaxTReal32"),_L("sqrtMaxTReal32")); + appendConstTR32(_L("KSqrtMinTReal32"),_L("sqrtMinTReal32")); + appendConstTR32(_L("KNegZeroTReal32"),_L("negZeroTReal32")); + + appendConstTR(_L("KMinTReal32inTReal"),_L("KMinTReal32in64")); + appendConstTR(_L("KMaxTReal32inTReal"),_L("KMaxTReal32in64")); + appendConstTR(_L("KNegZeroTReal"),_L("KNegZeroTReal64")); + } + +#endif + +//#define __GENERATE_TR64 +#ifdef __GENERATE_TR64 + +// Data for tests from T_R64DTA.cpp +GLREF_D TReal64 addInput[]; +GLREF_D TReal64 subInput[]; +GLREF_D TReal64 multInput[]; +GLREF_D TReal64 divInput[]; +GLREF_D TReal64 unaryInput[]; +GLREF_D TReal64 incDecInput[]; +GLREF_D TInt sizeAdd; +GLREF_D TInt sizeSub; +GLREF_D TInt sizeMult; +GLREF_D TInt sizeDiv; +GLREF_D TInt sizeUnary; +GLREF_D TInt sizeIncDec; + +LOCAL_D RFile fw; // file for WINS +LOCAL_D RFile fa; // file for ARM +LOCAL_D const TFileName fileNameW64 = _L("T_REAL64.HWG"); +LOCAL_D const TFileName fileNameA64 = _L("T_REAL64.HAG"); + +LOCAL_C void appendArrayName64(TDesC& aName) + { + buf=_L(""); + buf.AppendFormat(_L("const TInt64 %S[] = \n{\n"),&aName); + fw.Write(buf); + fa.Write(buf); + } + +LOCAL_C void appendValue64(TReal64* aVal) + { + buf=_L(""); + buf.AppendFormat(_L(" TInt64(0x%x,0x%x),\n"),*(((TUint32*)aVal) + 1),*(TUint32*)aVal); + fw.Write(buf); + buf=_L(""); + buf.AppendFormat(_L(" TInt64(0x%x,0x%x),\n"),*(TUint32*)aVal,*(((TUint32*)aVal) + 1)); + fa.Write(buf); + } + +LOCAL_C void appendArrayTerm() + { + buf=_L("};\n\n"); + fw.Write(buf); + fa.Write(buf); + } + +LOCAL_C void createAddArray() +// +// Writes an array of results of additions to the header file +// + { + TInt ii; + TReal64 ff; + + appendArrayName64(_L("addArray")); + for (ii=0; ii