/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include bool SubTotal::SafePlus(double& fVal1, double fVal2) { bool bOk = true; SAL_MATH_FPEXCEPTIONS_OFF(); fVal1 += fVal2; if (!std::isfinite(fVal1)) { bOk = false; if (fVal2 > 0.0) fVal1 = DBL_MAX; else fVal1 = -DBL_MAX; } return bOk; } bool SubTotal::SafeMult(double& fVal1, double fVal2) { bool bOk = true; SAL_MATH_FPEXCEPTIONS_OFF(); fVal1 *= fVal2; if (!std::isfinite(fVal1)) { bOk = false; fVal1 = DBL_MAX; } return bOk; } bool SubTotal::SafeDiv(double& fVal1, double fVal2) { bool bOk = true; SAL_MATH_FPEXCEPTIONS_OFF(); fVal1 /= fVal2; if (!std::isfinite(fVal1)) { bOk = false; fVal1 = DBL_MAX; } return bOk; } void ScFunctionData::update( double fNewVal ) { if (mbError) return; switch (meFunc) { case SUBTOTAL_FUNC_SUM: if (!SubTotal::SafePlus(getValueRef(), fNewVal)) mbError = true; break; case SUBTOTAL_FUNC_PROD: if (getCountRef() == 0) // copy first value (nVal is initialized to 0) { getValueRef() = fNewVal; getCountRef() = 1; // don't care about further count } else if (!SubTotal::SafeMult(getValueRef(), fNewVal)) mbError = true; break; case SUBTOTAL_FUNC_CNT: case SUBTOTAL_FUNC_CNT2: ++getCountRef(); break; case SUBTOTAL_FUNC_SELECTION_COUNT: getCountRef() += fNewVal; break; case SUBTOTAL_FUNC_AVE: if (!SubTotal::SafePlus(getValueRef(), fNewVal)) mbError = true; else ++getCountRef(); break; case SUBTOTAL_FUNC_MAX: if (getCountRef() == 0) // copy first value (nVal is initialized to 0) { getValueRef() = fNewVal; getCountRef() = 1; // don't care about further count } else if (fNewVal > getValueRef()) getValueRef() = fNewVal; break; case SUBTOTAL_FUNC_MIN: if (getCountRef() == 0) // copy first value (nVal is initialized to 0) { getValueRef() = fNewVal; getCountRef() = 1; // don't care about further count } else if (fNewVal < getValueRef()) getValueRef() = fNewVal; break; case SUBTOTAL_FUNC_VAR: case SUBTOTAL_FUNC_STD: case SUBTOTAL_FUNC_VARP: case SUBTOTAL_FUNC_STDP: maWelford.update( fNewVal); break; default: // unhandled unknown mbError = true; } } double ScFunctionData::getResult() { if (mbError) return 0.0; double fRet = 0.0; switch (meFunc) { case SUBTOTAL_FUNC_CNT: case SUBTOTAL_FUNC_CNT2: case SUBTOTAL_FUNC_SELECTION_COUNT: fRet = getCountRef(); break; case SUBTOTAL_FUNC_SUM: case SUBTOTAL_FUNC_MAX: case SUBTOTAL_FUNC_MIN: // Note that nVal is 0.0 for MAX and MIN if nCount==0, that's also // how it is defined in ODFF. fRet = getValueRef(); break; case SUBTOTAL_FUNC_PROD: fRet = (getCountRef() > 0) ? getValueRef() : 0.0; break; case SUBTOTAL_FUNC_AVE: if (getCountRef() == 0) mbError = true; else fRet = getValueRef() / getCountRef(); break; case SUBTOTAL_FUNC_VAR: case SUBTOTAL_FUNC_STD: if (maWelford.getCount() < 2) mbError = true; else { fRet = maWelford.getVarianceSample(); if (fRet < 0.0) mbError = true; else if (meFunc == SUBTOTAL_FUNC_STD) fRet = sqrt( fRet); } break; case SUBTOTAL_FUNC_VARP: case SUBTOTAL_FUNC_STDP: if (maWelford.getCount() < 1) mbError = true; else if (maWelford.getCount() == 1) fRet = 0.0; else { fRet = maWelford.getVariancePopulation(); if (fRet < 0.0) mbError = true; else if (meFunc == SUBTOTAL_FUNC_STDP) fRet = sqrt( fRet); } break; default: assert(!"unhandled unknown"); mbError = true; break; } if (mbError) fRet = 0.0; return fRet; } void WelfordRunner::update( double fVal ) { ++mnCount; const double fDelta = fVal - mfMean; mfMean += fDelta / mnCount; mfM2 += fDelta * (fVal - mfMean); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */