/* * Copyright (c) 1999 * Silicon Graphics Computer Systems, Inc. * * Copyright (c) 1999 * Boris Fomitchev * * This material is provided "as is", with absolutely no warranty expressed * or implied. Any use is at your own risk. * * Permission to use or copy this software for any purpose is hereby granted * without fee, provided the above notices are retained on all copies. * Permission to modify the code and to distribute modified code is granted, * provided the above notices are retained, and a notice that the code was * modified is included with the above copyright notice. * */ #include "stlport_prefix.h" #include #include #include #if defined (__DECCXX) # define NDIG 400 #else # define NDIG 82 #endif #if defined (_STLP_NO_LONG_DOUBLE) # define MAXECVT 17 # define MAXFCVT 18 typedef double max_double_type; #else # define MAXECVT 35 # define MAXFCVT 36 typedef long double max_double_type; #endif #define MAXFSIG MAXECVT #define MAXESIZ 5 #define todigit(x) ((x)+'0') #if defined (_STLP_UNIX) # if defined (__sun) # include # endif # if defined (__sun) || defined (__digital__) || defined (__sgi) || defined (_STLP_SCO_OPENSERVER) || defined (__NCR_SVR) // DEC, SGI & Solaris need this # include # include # endif # if defined (__QNXNTO__) || ( defined(__GNUC__) && defined(__APPLE__) ) || defined(_STLP_USE_UCLIBC) /* 0.9.26 */ || \ defined(__FreeBSD__) # define USE_SPRINTF_INSTEAD # endif # if defined( _AIX ) // JFA 3-Aug-2000 # include # include # endif #endif #include #include //#if defined(_CRAY) //# include //#endif #if defined (_STLP_MSVC_LIB) || defined (__MINGW32__) || defined (__BORLANDC__) || defined (__DJGPP) || \ defined (_STLP_SCO_OPENSERVER) || defined (__NCR_SVR) # include #endif #if defined(__MRC__) || defined(__SC__) || defined(_CRAY) //*TY 02/24/2000 - added support for MPW # include #endif #if defined (__CYGWIN__) # include #endif #if defined (__MSL__) # include // for atoi # include // for snprintf # include # include #endif #if defined (__ISCPP__) # include #endif #include #if defined (__DMC__) # define snprintf _snprintf #endif #if defined(__hpux) && (!defined(_INCLUDE_HPUX_SOURCE) || defined(__GNUC__)) extern "C" double erf(double); extern "C" double erfc(double); extern "C" double gamma(double); /* obsolescent */ extern "C" double hypot(double, double); extern "C" int isnan(double); extern "C" double j0(double); extern "C" double j1(double); extern "C" double jn(int, double); extern "C" double lgamma(double); extern "C" double y0(double); extern "C" double y1(double); extern "C" double yn(int, double); # define HUGE_VALF _SINFINITY # define INFINITY _SINFINITY # define NAN _SQNAN # define isnan(x) _ISNAN(x) # define isinf(x) _ISINF(x) # define signbit(x) _SIGNBIT(x) # define isfinite(x) _ISFINITE(x) # define isnormal(x) _ISNORMAL(x) # define fpclassify(x) _FPCLASSIFY(x) # define isunordered(x,y) _ISUNORDERED(x,y) # define isgreater(x,y) _ISGREATER(x,y) # define isgreaterequal(x,y) _ISGREATEREQUAL(x,y) # define isless(x,y) _ISLESS(x,y) # define islessequal(x,y) _ISLESSEQUAL(x,y) # define islessgreater(x,y) _ISLESSGREATER(x,y) # define FP_NORMAL 0 # define FP_ZERO 1 # define FP_INFINITE 2 # define FP_SUBNORMAL 3 # define FP_NAN 4 # define DECIMAL_DIG 17 # define _IS64(x) (sizeof(x) == sizeof(double)) # define _IS32(x) (sizeof(x) == sizeof(float)) extern "C" { extern double copysign(double, double); extern const float _SINFINITY; extern const float _SQNAN; # if defined (_PA_RISC) # define _ISNAN(x) (_IS32(x)?_Isnanf(x):(isnan)(x)) # define _ISINF(x) (_IS32(x)?_Isinff(x):_Isinf(x)) # define _SIGNBIT(x) (_IS32(x)?_Signbitf(x):_Signbit(x)) # define _ISFINITE(x) (_IS32(x)?_Isfinitef(x):_Isfinite(x)) # define _ISNORMAL(x) (_IS32(x)?_Isnormalf(x):_Isnormal(x)) # define _FPCLASSIFY(x) (_IS32(x)?_Fpclassifyf(x)>>1:_Fpclassify(x)>>1) # define _ISUNORDERED(x,y) (_IS32(x)&&_IS32(y)?_Isunorderedf(x,y):_Isunordered(x,y)) extern int _Signbit(double); extern int _Signbitf(float); extern int _Isnanf(float); extern int _Isfinite(double); extern int _Isfinitef(float); extern int _Isinf(double); extern int _Isinff(float); extern int _Isnormal(double); extern int _Isnormalf(float); extern int _Isunordered(double, double); extern int _Isunorderedf(float, float); extern int _Fpclassify(double); extern int _Fpclassifyf(float); # else # include "math_ia64_internal.h" # define _FPCLASSIFY(x) (_IS32(x)?_Fpclassf(x):_Fpclass(x)) extern int _Fpclass(double); extern int _Fpclassf(float); # endif } # if !defined (_INCLUDE_XOPEN_SOURCE_EXTENDED) extern "C" char *fcvt(double, int, int *, int *); extern "C" char *ecvt(double, int, int *, int *); # endif # if !defined (_INCLUDE_HPUX_SOURCE) # if !defined (_LONG_DOUBLE) # define _LONG_DOUBLE typedef struct { uint32_t word1, word2, word3, word4; } long_double; # endif /* _LONG_DOUBLE */ extern "C" char *_ldecvt(long_double, int, int *, int *); extern "C" char *_ldfcvt(long_double, int, int *, int *); # endif #endif /* __hpux */ _STLP_BEGIN_NAMESPACE _STLP_MOVE_TO_PRIV_NAMESPACE #if defined (__MWERKS__) || defined(__BEOS__) # define USE_SPRINTF_INSTEAD #endif #if defined (_AIX) || defined(__FreeBSD__) || defined(__NetBSD__) || defined(__OpenBSD__) // Some OS'es only provide non-reentrant primitives, so we have to use additional synchronization here # if !defined(_REENTRANT) && !defined(_THREAD_SAFE) && !(defined(_POSIX_THREADS) && defined(__OpenBSD__)) # define LOCK_CVT # define RETURN_CVT(ecvt, x, n, pt, sign, buf) return ecvt(x, n, pt, sign); # else static _STLP_STATIC_MUTEX __put_float_mutex _STLP_MUTEX_INITIALIZER; # define LOCK_CVT _STLP_auto_lock lock(__put_float_mutex); # define RETURN_CVT(ecvt, x, n, pt, sign, buf) strcpy(buf, ecvt(x, n, pt, sign)); return buf; # endif // !_REENTRANT #endif // _AIX || __FreeBSD__ || __NetBSD__ || __OpenBSD__ // Tests for infinity and NaN differ on different OSs. We encapsulate // these differences here. #if !defined (USE_SPRINTF_INSTEAD) # if defined (__hpux) || defined (__DJGPP) || (defined (_STLP_USE_GLIBC) && ! defined (__MSL__)) || \ defined (__FreeBSD__) || defined (__NetBSD__) || defined (__OpenBSD__) static inline bool _Stl_is_nan_or_inf(double x) # if defined (isfinite) { return !isfinite(x); } # else { return !finite(x); } # endif static inline bool _Stl_is_neg_nan(double x) { return isnan(x) && ( copysign(1., x) < 0 ); } static inline bool _Stl_is_inf(double x) { return isinf(x); } // inline bool _Stl_is_neg_inf(double x) { return isinf(x) < 0; } static inline bool _Stl_is_neg_inf(double x) { return isinf(x) && x < 0; } # elif (defined (__unix) || defined (__unix__)) && \ !defined (__APPLE__) && !defined (__DJGPP) && !defined(__osf__) && \ !defined (_CRAY) static inline bool _Stl_is_nan_or_inf(double x) { return IsNANorINF(x); } static inline bool _Stl_is_inf(double x) { return IsNANorINF(x) && IsINF(x); } static inline bool _Stl_is_neg_inf(double x) { return (IsINF(x)) && (x < 0.0); } static inline bool _Stl_is_neg_nan(double x) { return IsNegNAN(x); } # elif defined (__BORLANDC__) && ( __BORLANDC__ < 0x540 ) static inline bool _Stl_is_nan_or_inf(double x) { return !_finite(x); } static inline bool _Stl_is_inf(double x) { return _Stl_is_nan_or_inf(x) && ! _isnan(x);} static inline bool _Stl_is_neg_inf(double x) { return _Stl_is_inf(x) && x < 0 ; } static inline bool _Stl_is_neg_nan(double x) { return _isnan(x) && x < 0 ; } # elif defined (_STLP_MSVC_LIB) || defined (__MINGW32__) || defined (__BORLANDC__) static inline bool _Stl_is_nan_or_inf(double x) { return !_finite(x); } static inline bool _Stl_is_inf(double x) { int fclass = _fpclass(x); return fclass == _FPCLASS_NINF || fclass == _FPCLASS_PINF; } static inline bool _Stl_is_neg_inf(double x) { return _fpclass(x) == _FPCLASS_NINF; } static inline bool _Stl_is_neg_nan(double x) { return _isnan(x) && _copysign(1., x) < 0 ; } # elif defined (__MRC__) || defined (__SC__) //*TY 02/24/2000 - added support for MPW static bool _Stl_is_nan_or_inf(double x) { return isnan(x) || !isfinite(x); } static bool _Stl_is_inf(double x) { return !isfinite(x); } static bool _Stl_is_neg_inf(double x) { return !isfinite(x) && signbit(x); } static bool _Stl_is_neg_nan(double x) { return isnan(x) && signbit(x); } # elif /* defined(__FreeBSD__) || defined(__OpenBSD__) || */ (defined(__GNUC__) && defined(__APPLE__)) static inline bool _Stl_is_nan_or_inf(double x) { return !finite(x); } static inline bool _Stl_is_inf(double x) { return _Stl_is_nan_or_inf(x) && ! isnan(x); } static inline bool _Stl_is_neg_inf(double x) { return _Stl_is_inf(x) && x < 0 ; } static inline bool _Stl_is_neg_nan(double x) { return isnan(x) && copysign(1., x) < 0 ; } # elif defined( _AIX ) // JFA 11-Aug-2000 static bool _Stl_is_nan_or_inf(double x) { return isnan(x) || !finite(x); } static bool _Stl_is_inf(double x) { return !finite(x); } // bool _Stl_is_neg_inf(double x) { return _class(x) == FP_MINUS_INF; } static bool _Stl_is_neg_inf(double x) { return _Stl_is_inf(x) && ( copysign(1., x) < 0 ); } static bool _Stl_is_neg_nan(double x) { return isnan(x) && ( copysign(1., x) < 0 ); } # elif defined (__ISCPP__) static inline bool _Stl_is_nan_or_inf (double x) { return _fp_isINF(x) || _fp_isNAN(x); } static inline bool _Stl_is_inf (double x) { return _fp_isINF(x); } static inline bool _Stl_is_neg_inf (double x) { return _fp_isINF(x) && x < 0; } static inline bool _Stl_is_neg_nan (double x) { return _fp_isNAN(x) && x < 0; } # elif defined (_CRAY) # if defined (_CRAYIEEE) static inline bool _Stl_is_nan_or_inf(double x) { return isnan(x) || isinf(x); } static inline bool _Stl_is_inf(double x) { return isinf(x); } static inline bool _Stl_is_neg_inf(double x) { return isinf(x) && signbit(x); } static inline bool _Stl_is_neg_nan(double x) { return isnan(x) && signbit(x); } # else static inline bool _Stl_is_nan_or_inf(double x) { return false; } static inline bool _Stl_is_inf(double x) { return false; } static inline bool _Stl_is_neg_inf(double x) { return false; } static inline bool _Stl_is_neg_nan(double x) { return false; } # endif # else // nothing from above # define USE_SPRINTF_INSTEAD # endif #endif // !USE_SPRINTF_INSTEAD #if !defined (USE_SPRINTF_INSTEAD) // Reentrant versions of floating-point conversion functions. The argument // lists look slightly different on different operating systems, so we're // encapsulating the differences here. # if defined (__CYGWIN__) || defined(__DJGPP) static inline char* _Stl_ecvtR(double x, int n, int* pt, int* sign, char* buf) { return ecvtbuf(x, n, pt, sign, buf); } static inline char* _Stl_fcvtR(double x, int n, int* pt, int* sign, char* buf) { return fcvtbuf(x, n, pt, sign, buf); } # if !defined (_STLP_NO_LONG_DOUBLE) static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign, char* buf) { return ecvtbuf(x, n, pt, sign, buf); } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign, char* buf) { return fcvtbuf(x, n, pt, sign, buf); } # endif # elif defined (_STLP_USE_GLIBC) static inline char* _Stl_ecvtR(double x, int n, int* pt, int* sign, char* buf) { return buf + ecvt_r(x, n, pt, sign, buf, NDIG+2); } static inline char* _Stl_fcvtR(double x, int n, int* pt, int* sign, char* buf) { return buf + fcvt_r(x, n, pt, sign, buf, NDIG+2); } # if !defined (_STLP_NO_LONG_DOUBLE) static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign, char* buf) { return buf + qecvt_r(x, n, pt, sign, buf, NDIG+2); } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign, char* buf) { return buf + qfcvt_r(x, n, pt, sign, buf, NDIG+2); } # endif # elif defined (_STLP_SCO_OPENSERVER) || defined (__NCR_SVR) static inline char* _Stl_ecvtR(double x, int n, int* pt, int* sign, char* buf) { return ecvt(x, n, pt, sign); } static inline char* _Stl_fcvtR(double x, int n, int* pt, int* sign, char* buf) { return fcvt(x, n, pt, sign); } # if !defined (_STLP_NO_LONG_DOUBLE) static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign, char* buf) { return ecvtl(x, n, pt, sign); } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign, char* buf) { return fcvtl(x, n, pt, sign); } # endif # elif defined (__sun) static inline char* _Stl_ecvtR(double x, int n, int* pt, int* sign, char* buf) { return econvert(x, n, pt, sign, buf); } static inline char* _Stl_fcvtR(double x, int n, int* pt, int* sign, char* buf) { return fconvert(x, n, pt, sign, buf); } # if !defined (_STLP_NO_LONG_DOUBLE) static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign, char* buf) { return qeconvert(&x, n, pt, sign, buf); } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign, char* buf) { return qfconvert(&x, n, pt, sign, buf); } # endif # elif defined (__DECCXX) static inline char* _Stl_ecvtR(double x, int n, int* pt, int* sign, char* buf) { return (ecvt_r(x, n, pt, sign, buf, NDIG)==0 ? buf : 0); } static inline char* _Stl_fcvtR(double x, int n, int* pt, int* sign, char* buf) { return (fcvt_r(x, n, pt, sign, buf, NDIG)==0 ? buf : 0); } # if !defined (_STLP_NO_LONG_DOUBLE) // fbp : no "long double" conversions ! static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign, char* buf) { return (ecvt_r((double)x, n, pt, sign, buf, NDIG)==0 ? buf : 0) ; } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign, char* buf) { return (fcvt_r((double)x, n, pt, sign, buf, NDIG)==0 ? buf : 0); } # endif # elif defined (__hpux) static inline char* _Stl_ecvtR(double x, int n, int* pt, int* sign, char* buf) { return ecvt(x, n, pt, sign); } static inline char* _Stl_fcvtR(double x, int n, int* pt, int* sign, char* buf) { return fcvt(x, n, pt, sign); } # if !defined (_STLP_NO_LONG_DOUBLE) # if defined( _REENTRANT ) && (defined(_PTHREADS_DRAFT4) || defined(PTHREAD_THREADS_MAX)) static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign, char* buf) { return (_ldecvt_r(*(long_double*)&x, n, pt, sign, buf, NDIG+2)==0 ? buf : 0); } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign, char* buf) { return (_ldfcvt_r(*(long_double*)&x, n, pt, sign, buf, NDIG+2)==0 ? buf : 0); } # else static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign, char* buf) { return _ldecvt(*(long_double*)&x, n, pt, sign); } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign, char* buf) { return _ldfcvt(*(long_double*)&x, n, pt, sign); } # endif # endif # elif defined (_AIX) || defined (__FreeBSD__) || defined (__NetBSD__) || defined (__OpenBSD__) static inline char* _Stl_ecvtR(double x, int n, int* pt, int* sign, char* buf) { LOCK_CVT RETURN_CVT(ecvt, x, n, pt, sign, buf) } static inline char* _Stl_fcvtR(double x, int n, int* pt, int* sign, char* buf) { LOCK_CVT RETURN_CVT(fcvt, x, n, pt, sign, buf) } # if !defined (_STLP_NO_LONG_DOUBLE) static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign, char* buf) { LOCK_CVT RETURN_CVT(ecvt, x, n, pt, sign, buf) } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign, char* buf) { LOCK_CVT RETURN_CVT(fcvt, x, n, pt, sign, buf) } # endif # elif defined (__unix) && !defined (__APPLE__) && !defined (_CRAY) static inline char* _Stl_ecvtR(double x, int n, int* pt, int* sign, char* buf) { return ecvt_r(x, n, pt, sign, buf); } static inline char* _Stl_fcvtR(double x, int n, int* pt, int* sign, char* buf) { return fcvt_r(x, n, pt, sign, buf); } # if !defined (_STLP_NO_LONG_DOUBLE) static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign, char* buf) { return qecvt_r(x, n, pt, sign, buf); } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign, char* buf) { return qfcvt_r(x, n, pt, sign, buf); } # endif # elif defined (_STLP_MSVC_LIB) || defined (__MINGW32__) || defined (__BORLANDC__) // those guys claim _cvt functions being reentrant. # if defined (_STLP_USE_SAFE_STRING_FUNCTIONS) # define _STLP_APPEND(a, b) a##b # define _STLP_BUF_PARAMS , char* buf, size_t bsize # define _STLP_SECURE_FUN(F, X, N, PT, SIGN) _STLP_APPEND(F, _s)(buf, bsize, X, N, PT, SIGN); return buf # else # define _STLP_CVT_DONT_NEED_BUF # define _STLP_BUF_PARAMS # define _STLP_SECURE_FUN(F, X, N, PT, SIGN) return F(X, N, PT, SIGN) # endif static inline char* _Stl_ecvtR(double x, int n, int* pt, int* sign _STLP_BUF_PARAMS) { _STLP_SECURE_FUN(_ecvt, x, n, pt, sign); } static inline char* _Stl_fcvtR(double x, int n, int* pt, int* sign _STLP_BUF_PARAMS) { _STLP_SECURE_FUN(_fcvt, x, n, pt, sign); } # if !defined (_STLP_NO_LONG_DOUBLE) static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign _STLP_BUF_PARAMS) { _STLP_SECURE_FUN(_ecvt, (double)x, n, pt, sign); } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign _STLP_BUF_PARAMS) { _STLP_SECURE_FUN(_fcvt, (double)x, n, pt, sign); } # endif # undef _STLP_SECURE_FUN # undef _STLP_BUF_PARAMS # undef _STLP_APPEND # elif defined (__ISCPP__) static inline char* _Stl_ecvtR(double x, int n, int* pt, int* sign, char* buf) { return _fp_ecvt( x, n, pt, sign, buf); } static inline char* _Stl_fcvtR(double x, int n, int* pt, int* sign, char* buf) { return _fp_fcvt(x, n, pt, sign, buf); } # if !defined (_STLP_NO_LONG_DOUBLE) static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign, char* buf) { return _fp_ecvt( x, n, pt, sign, buf); } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign, char* buf) { return _fp_fcvt(x, n, pt, sign, buf); } # endif # elif defined (__MRC__) || defined (__SC__) || defined (_CRAY) static inline char* _Stl_ecvtR(double x, int n, int* pt, int* sign, char* ) { return ecvt( x, n, pt, sign ); } static inline char* _Stl_fcvtR(double x, int n, int* pt, int* sign, char* ) { return fcvt(x, n, pt, sign); } # if !defined (_STLP_NO_LONG_DOUBLE) static inline char* _Stl_qecvtR(long double x, int n, int* pt, int* sign, char* ) { return ecvt( x, n, pt, sign ); } static inline char* _Stl_qfcvtR(long double x, int n, int* pt, int* sign, char* ) { return fcvt(x, n, pt, sign); } # endif # endif # if defined (_STLP_CVT_DONT_NEED_BUF) # define _STLP_CVT_BUFFER(B) # elif !defined (_STLP_USE_SAFE_STRING_FUNCTIONS) # define _STLP_CVT_BUFFER(B) , B # else # define _STLP_CVT_BUFFER(B) , _STLP_ARRAY_AND_SIZE(B) # endif # if !defined (_STLP_USE_SAFE_STRING_FUNCTIONS) # define _STLP_BUFFER(B) B # else # define _STLP_BUFFER(B) _STLP_ARRAY_AND_SIZE(B) # endif //---------------------------------------------------------------------- // num_put // __format_float formats a mantissa and exponent as returned by // one of the conversion functions (ecvt_r, fcvt_r, qecvt_r, qfcvt_r) // according to the specified precision and format flags. This is // based on doprnt but is much simpler since it is concerned only // with floating point input and does not consider all formats. It // also does not deal with blank padding, which is handled by // __copy_float_and_fill. static size_t __format_float_scientific( __iostring& buf, const char *bp, int decpt, int sign, bool is_zero, ios_base::fmtflags flags, int precision, bool /* islong */) { // sign if required if (sign) buf += '-'; else if (flags & ios_base::showpos) buf += '+'; // first digit of mantissa buf += *bp++; // start of grouping position, grouping won't occur in scientific notation // as it is impossible to have something like 1234.0e04 but we return a correct // group position for coherency with __format_float_fixed. size_t __group_pos = buf.size(); // decimal point if required if (precision != 0 || flags & ios_base::showpoint) { buf += '.'; } // rest of mantissa int rz = precision; while (rz-- > 0 && *bp != 0) buf += *bp++; // exponent char expbuf[MAXESIZ + 2]; char *suffix = expbuf + MAXESIZ; *suffix = 0; if (!is_zero) { int nn = decpt - 1; if (nn < 0) nn = -nn; for (; nn > 9; nn /= 10) *--suffix = (char) todigit(nn % 10); *--suffix = (char) todigit(nn); } // prepend leading zeros to exponent while (suffix > &expbuf[MAXESIZ - 2]) *--suffix = '0'; // put in the exponent sign *--suffix = (char) ((decpt > 0 || is_zero ) ? '+' : '-'); // put in the e *--suffix = flags & ios_base::uppercase ? 'E' : 'e'; // copy the suffix buf += suffix; return __group_pos; } static size_t __format_float_fixed( __iostring &buf, const char *bp, int decpt, int sign, bool /* x */, ios_base::fmtflags flags, int precision, bool islong ) { if ( sign && (decpt > -precision) && (*bp != 0) ) buf += '-'; else if ( flags & ios_base::showpos ) buf += '+'; int k = 0; int maxfsig = islong ? 2*MAXFSIG : MAXFSIG; // digits before decimal point int nnn = decpt; do { buf += ((nnn <= 0 || *bp == 0 || k >= maxfsig) ? '0' : (++k, *bp++)); } while ( --nnn > 0 ); // start of grouping position size_t __group_pos = buf.size(); // decimal point if needed if ( flags & ios_base::showpoint || precision > 0 ) { buf += '.'; } // digits after decimal point if any nnn = (min) (precision, MAXFCVT); while ( --nnn >= 0 ) { buf += (++decpt <= 0 || *bp == 0 || k >= maxfsig) ? '0' : (++k, *bp++); } // trailing zeros if needed if ( precision > MAXFCVT ) { buf.append( precision - MAXFCVT, '0' ); } return __group_pos; } static void __format_nan_or_inf(__iostring& buf, double x, ios_base::fmtflags flags) { static const char* inf[2] = { "inf", "Inf" }; static const char* nan[2] = { "nan", "NaN" }; const char** inf_or_nan; if (_Stl_is_inf(x)) { // Infinity inf_or_nan = inf; if (_Stl_is_neg_inf(x)) buf += '-'; else if (flags & ios_base::showpos) buf += '+'; } else { // NaN inf_or_nan = nan; if (_Stl_is_neg_nan(x)) buf += '-'; else if (flags & ios_base::showpos) buf += '+'; } buf += inf_or_nan[flags & ios_base::uppercase ? 1 : 0]; } template static inline size_t __format_float( __iostring &buf, const char * bp, int decpt, int sign, max_double_type x, ios_base::fmtflags flags, int precision, bool islong) { size_t __group_pos = 0; // Output of infinities and NANs does not depend on the format flags if (_Stl_is_nan_or_inf((double)x)) { // Infinity or NaN __format_nan_or_inf(buf, (double)x, flags); } else { // representable number switch (flags & ios_base::floatfield) { case ios_base::scientific: __group_pos = __format_float_scientific( buf, bp, decpt, sign, x == 0.0, flags, precision, islong); break; case ios_base::fixed: __group_pos = __format_float_fixed( buf, bp, decpt, sign, true, flags, precision, islong); break; default: // g format // establish default precision if (flags & ios_base::showpoint || precision > 0) { if (precision == 0) precision = 1; } else precision = 6; // reset exponent if value is zero if (x == 0) decpt = 1; int kk = precision; if (!(flags & ios_base::showpoint)) { size_t n = strlen(bp); if (n < (size_t)kk) kk = (int)n; while (kk >= 1 && bp[kk-1] == '0') --kk; } if (decpt < -3 || decpt > precision) { precision = kk - 1; __group_pos = __format_float_scientific( buf, bp, decpt, sign, x == 0, flags, precision, islong); } else { precision = kk - decpt; __group_pos = __format_float_fixed( buf, bp, decpt, sign, true, flags, precision, islong); } break; } /* switch */ } /* else is_nan_or_inf */ return __group_pos; } #else /* USE_SPRINTF_INSTEAD */ struct GroupPos { bool operator () (char __c) const { return __c == '.' || __c == 'e' || __c == 'E'; } }; // Creates a format string for sprintf() static int __fill_fmtbuf(char* fmtbuf, ios_base::fmtflags flags, char long_modifier) { fmtbuf[0] = '%'; int i = 1; if (flags & ios_base::showpos) fmtbuf[i++] = '+'; if (flags & ios_base::showpoint) fmtbuf[i++] = '#'; fmtbuf[i++] = '.'; fmtbuf[i++] = '*'; if (long_modifier) fmtbuf[i++] = long_modifier; switch (flags & ios_base::floatfield) { case ios_base::scientific: fmtbuf[i++] = (flags & ios_base::uppercase) ? 'E' : 'e'; break; case ios_base::fixed: # if defined (__FreeBSD__) fmtbuf[i++] = 'f'; # else fmtbuf[i++] = (flags & ios_base::uppercase) ? 'F' : 'f'; # endif break; default: fmtbuf[i++] = (flags & ios_base::uppercase) ? 'G' : 'g'; break; } fmtbuf[i] = 0; return i; } #endif /* USE_SPRINTF_INSTEAD */ size_t _STLP_CALL __write_float(__iostring &buf, ios_base::fmtflags flags, int precision, double x) { #if defined (USE_SPRINTF_INSTEAD) /* If we want 'abitrary' precision, we should use 'abitrary' buffer size * below. - ptr */ char static_buf[128]; // char *static_buf = new char [128+precision]; char fmtbuf[32]; __fill_fmtbuf(fmtbuf, flags, 0); // snprintf(static_buf, 128+precision, fmtbuf, precision, x); # if !defined (N_PLAT_NLM) snprintf(_STLP_ARRAY_AND_SIZE(static_buf), fmtbuf, precision, x); # else sprintf(static_buf, fmtbuf, precision, x); # endif buf = static_buf; // delete [] static_buf; return find_if(buf.begin(), buf.end(), GroupPos()) - buf.begin(); #else # if !defined (_STLP_CVT_DONT_NEED_BUF) char cvtbuf[NDIG + 2]; # endif char * bp; int decpt, sign; switch (flags & ios_base::floatfield) { case ios_base::fixed: bp = _Stl_fcvtR(x, (min) (precision, MAXFCVT), &decpt, &sign _STLP_CVT_BUFFER(cvtbuf)); break; case ios_base::scientific : bp = _Stl_ecvtR(x, (min) (precision + 1, MAXECVT), &decpt, &sign _STLP_CVT_BUFFER(cvtbuf)); break; default : bp = _Stl_ecvtR(x, (min) (precision, MAXECVT), &decpt, &sign _STLP_CVT_BUFFER(cvtbuf)); break; } return __format_float(buf, bp, decpt, sign, x, flags, precision, false); #endif } #if !defined (_STLP_NO_LONG_DOUBLE) size_t _STLP_CALL __write_float(__iostring &buf, ios_base::fmtflags flags, int precision, long double x) { # if defined (USE_SPRINTF_INSTEAD) /* If we want 'abitrary' precision, we should use 'abitrary' buffer size * below. - ptr */ char static_buf[128]; // char *static_buf = new char [128+precision]; char fmtbuf[64]; int i = __fill_fmtbuf(fmtbuf, flags, 'L'); // snprintf(static_buf, 128+precision, fmtbuf, precision, x); # if !defined (N_PLAT_NLM) snprintf(_STLP_ARRAY_AND_SIZE(static_buf), fmtbuf, precision, x); # else sprintf(static_buf, fmtbuf, precision, x); # endif // we should be able to return buf + sprintf(), but we do not trust'em... buf = static_buf; // delete [] static_buf; return find_if(buf.begin(), buf.end(), GroupPos()) - buf.begin(); # else # if !defined (_STLP_CVT_DONT_NEED_BUF) char cvtbuf[NDIG + 2]; # endif char * bp; int decpt, sign; switch (flags & ios_base::floatfield) { case ios_base::fixed: bp = _Stl_qfcvtR(x, (min) (precision, MAXFCVT), &decpt, &sign _STLP_CVT_BUFFER(cvtbuf)); break; case ios_base::scientific: bp = _Stl_qecvtR(x, (min) (precision + 1, MAXECVT), &decpt, &sign _STLP_CVT_BUFFER(cvtbuf)); break; default : bp = _Stl_qecvtR(x, (min) (precision, MAXECVT), &decpt, &sign _STLP_CVT_BUFFER(cvtbuf)); break; } return __format_float(buf, bp, decpt, sign, x, flags, precision, true); # endif /* USE_SPRINTF_INSTEAD */ } #endif /* _STLP_NO_LONG_DOUBLE */ void _STLP_CALL __get_floor_digits(__iostring &out, _STLP_LONGEST_FLOAT_TYPE __x) { #if defined (USE_SPRINTF_INSTEAD) char cvtbuf[128]; # if !defined (_STLP_NO_LONG_DOUBLE) # if !defined (N_PLAT_NLM) snprintf(_STLP_ARRAY_AND_SIZE(cvtbuf), "%Lf", __x); // check for 1234.56! # else sprintf(cvtbuf, "%Lf", __x); // check for 1234.56! # endif # else snprintf(_STLP_ARRAY_AND_SIZE(cvtbuf), "%f", __x); // check for 1234.56! # endif char *p = strchr( cvtbuf, '.' ); if ( p == 0 ) { out.append( cvtbuf ); } else { out.append( cvtbuf, p ); } #else # if !defined (_STLP_CVT_DONT_NEED_BUF) char cvtbuf[NDIG + 2]; # endif char * bp; int decpt, sign; # if !defined (_STLP_NO_LONG_DOUBLE) bp = _Stl_qfcvtR(__x, 0, &decpt, &sign _STLP_CVT_BUFFER(cvtbuf)); # else bp = _Stl_fcvtR(__x, 0, &decpt, &sign _STLP_CVT_BUFFER(cvtbuf)); # endif if (sign) { out += '-'; } out.append(bp, bp + decpt); #endif // USE_PRINTF_INSTEAD } #if !defined (_STLP_NO_WCHAR_T) void _STLP_CALL __convert_float_buffer( __iostring const& str, __iowstring &out, const ctype& ct, wchar_t dot, bool __check_dot) { string::const_iterator str_ite(str.begin()), str_end(str.end()); //First loop, check the dot char if (__check_dot) { while (str_ite != str_end) { if (*str_ite != '.') { out += ct.widen(*str_ite++); } else { out += dot; break; } } } else { if (str_ite != str_end) { out += ct.widen(*str_ite); } } if (str_ite != str_end) { //Second loop, dot has been found, no check anymore while (++str_ite != str_end) { out += ct.widen(*str_ite); } } } #endif void _STLP_CALL __adjust_float_buffer(__iostring &str, char dot) { if ('.' != dot) { size_t __dot_pos = str.find('.'); if (__dot_pos != string::npos) { str[__dot_pos] = dot; } } } _STLP_MOVE_TO_STD_NAMESPACE _STLP_END_NAMESPACE // Local Variables: // mode:C++ // End: