/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- * * The contents of this file are subject to the Mozilla Public * License Version 1.1 (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.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS * IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or * implied. See the License for the specific language governing * rights and limitations under the License. * * The Original Code is TransforMiiX XSLT processor. * * The Initial Developer of the Original Code is The MITRE Corporation. * Portions created by MITRE are Copyright (C) 1999 The MITRE Corporation. * * Portions created by Keith Visco as a Non MITRE employee, * (C) 1999 Keith Visco. All Rights Reserved. * * Contributor(s): * * Keith Visco, kvisco@ziplink.net * -- original author. * * Larry Fitzpatrick, lef@opentext.com * * Eric Du, duxy@leyou.com.cn * -- added fix for FreeBSD * * NaN/Infinity code copied from the JS-library with permission from * Netscape Communications Corporation: http://www.mozilla.org/js * http://lxr.mozilla.org/seamonkey/source/js/src/jsnum.h * */ #include "nsString.h" #include "primitives.h" #include "XMLUtils.h" #include #include #ifdef WIN32 #include #endif #include "prdtoa.h" /* * Utility class for doubles */ //A trick to handle IEEE floating point exceptions on FreeBSD - E.D. #ifdef __FreeBSD__ #include #ifdef __alpha__ fp_except_t allmask = FP_X_INV|FP_X_OFL|FP_X_UFL|FP_X_DZ|FP_X_IMP; #else fp_except_t allmask = FP_X_INV|FP_X_OFL|FP_X_UFL|FP_X_DZ|FP_X_IMP|FP_X_DNML; #endif fp_except_t oldmask = fpsetmask(~allmask); #endif /* * Macros to workaround math-bugs bugs in various platforms */ #ifdef IS_BIG_ENDIAN #define TX_DOUBLE_HI32(x) (((PRUint32 *)&(x))[0]) #define TX_DOUBLE_LO32(x) (((PRUint32 *)&(x))[1]) #else #define TX_DOUBLE_HI32(x) (((PRUint32 *)&(x))[1]) #define TX_DOUBLE_LO32(x) (((PRUint32 *)&(x))[0]) #endif #define TX_DOUBLE_HI32_SIGNBIT 0x80000000 #define TX_DOUBLE_HI32_EXPMASK 0x7ff00000 #define TX_DOUBLE_HI32_MANTMASK 0x000fffff //-- Initialize Double related constants #ifdef IS_BIG_ENDIAN const PRUint32 nanMask[2] = {TX_DOUBLE_HI32_EXPMASK | TX_DOUBLE_HI32_MANTMASK, 0xffffffff}; const PRUint32 infMask[2] = {TX_DOUBLE_HI32_EXPMASK, 0}; const PRUint32 negInfMask[2] = {TX_DOUBLE_HI32_EXPMASK | TX_DOUBLE_HI32_SIGNBIT, 0}; #else const PRUint32 nanMask[2] = {0xffffffff, TX_DOUBLE_HI32_EXPMASK | TX_DOUBLE_HI32_MANTMASK}; const PRUint32 infMask[2] = {0, TX_DOUBLE_HI32_EXPMASK}; const PRUint32 negInfMask[2] = {0, TX_DOUBLE_HI32_EXPMASK | TX_DOUBLE_HI32_SIGNBIT}; #endif const double Double::NaN = *((double*)nanMask); const double Double::POSITIVE_INFINITY = *((double*)infMask); const double Double::NEGATIVE_INFINITY = *((double*)negInfMask); /* * Determines whether the given double represents positive or negative * inifinity */ MBool Double::isInfinite(double aDbl) { return ((TX_DOUBLE_HI32(aDbl) & ~TX_DOUBLE_HI32_SIGNBIT) == TX_DOUBLE_HI32_EXPMASK && !TX_DOUBLE_LO32(aDbl)); } /* * Determines whether the given double is NaN */ MBool Double::isNaN(double aDbl) { return ((TX_DOUBLE_HI32(aDbl) & TX_DOUBLE_HI32_EXPMASK) == TX_DOUBLE_HI32_EXPMASK && (TX_DOUBLE_LO32(aDbl) || (TX_DOUBLE_HI32(aDbl) & TX_DOUBLE_HI32_MANTMASK))); } /* * Determines whether the given double is negative */ MBool Double::isNeg(double aDbl) { return (TX_DOUBLE_HI32(aDbl) & TX_DOUBLE_HI32_SIGNBIT) != 0; } /* * Converts the given String to a double, if the String value does not * represent a double, NaN will be returned */ class txStringToDouble { public: typedef PRUnichar input_type; typedef PRUnichar value_type; txStringToDouble(): mState(eWhitestart), mSign(ePositive) {} PRUint32 write(const input_type* aSource, PRUint32 aSourceLength) { if (mState == eIllegal) { return aSourceLength; } PRUint32 i = 0; PRUnichar c; for ( ; i < aSourceLength; ++i) { c = aSource[i]; switch (mState) { case eWhitestart: if (c == '-') { mState = eDecimal; mSign = eNegative; } else if (c >= '0' && c <= '9') { mState = eDecimal; mBuffer.Append((char)c); } else if (c == '.') { mState = eMantissa; mBuffer.Append((char)c); } else if (!XMLUtils::isWhitespace(c)) { mState = eIllegal; return aSourceLength; } break; case eDecimal: if (c >= '0' && c <= '9') { mBuffer.Append((char)c); } else if (c == '.') { mState = eMantissa; mBuffer.Append((char)c); } else if (XMLUtils::isWhitespace(c)) { mState = eWhiteend; } else { mState = eIllegal; return aSourceLength; } break; case eMantissa: if (c >= '0' && c <= '9') { mBuffer.Append((char)c); } else if (XMLUtils::isWhitespace(c)) { mState = eWhiteend; } else { mState = eIllegal; return aSourceLength; } break; case eWhiteend: if (!XMLUtils::isWhitespace(c)) { mState = eIllegal; return aSourceLength; } break; default: break; } } return aSourceLength; } double getDouble() { if (mState == eIllegal || mBuffer.IsEmpty() || (mBuffer.Length() == 1 && mBuffer[0] == '.')) { return Double::NaN; } return mSign*PR_strtod(mBuffer.get(), 0); } private: nsCAutoString mBuffer; enum { eWhitestart, eDecimal, eMantissa, eWhiteend, eIllegal } mState; enum { eNegative = -1, ePositive = 1 } mSign; }; double Double::toDouble(const nsAString& aSrc) { txStringToDouble sink; nsAString::const_iterator fromBegin, fromEnd; copy_string(aSrc.BeginReading(fromBegin), aSrc.EndReading(fromEnd), sink); return sink.getDouble(); } /* * Converts the value of the given double to a String, and places * The result into the destination String. * @return the given dest string */ void Double::toString(double aValue, nsAString& aDest) { // check for special cases if (isNaN(aValue)) { aDest.Append(NS_LITERAL_STRING("NaN")); return; } if (isInfinite(aValue)) { if (aValue < 0) aDest.Append(PRUnichar('-')); aDest.Append(NS_LITERAL_STRING("Infinity")); return; } // Mantissa length is 17, so this is plenty const int buflen = 20; char buf[buflen]; PRIntn intDigits, sign; char* endp; PR_dtoa(aValue, 0, 0, &intDigits, &sign, &endp, buf, buflen - 1); // compute length PRInt32 length = endp - buf; if (length > intDigits) { // decimal point needed ++length; if (intDigits < 1) { // leading zeros, -intDigits + 1 length += 1 - intDigits; } } else { // trailing zeros, total length given by intDigits length = intDigits; } if (aValue < 0) ++length; PRUint32 oldlength = aDest.Length(); aDest.SetLength(oldlength + length); // grow the string nsAString::iterator dest; aDest.BeginWriting(dest).advance(PRInt32(oldlength)); if (aValue < 0) { *dest = '-'; ++dest; } int i; // leading zeros if (intDigits < 1) { *dest = '0'; ++dest; *dest = '.'; ++dest; for (i = 0; i > intDigits; --i) { *dest = '0'; ++dest; } } // mantissa int firstlen = PR_MIN(intDigits, endp - buf); for (i = 0; i < firstlen; i++) { *dest = buf[i]; ++dest; } if (i < endp - buf) { if (i > 0) { *dest = '.'; ++dest; } for (; i < endp - buf; i++) { *dest = buf[i]; ++dest; } } // trailing zeros for (; i < intDigits; i++) { *dest = '0'; ++dest; } }