// // NumericString.h // // Library: Foundation // Package: Core // Module: NumericString // // Numeric string utility functions. // // Copyright (c) 2004-2006, Applied Informatics Software Engineering GmbH. // and Contributors. // // SPDX-License-Identifier: BSL-1.0 // #ifndef Foundation_NumericString_INCLUDED #define Foundation_NumericString_INCLUDED #include "Poco/Foundation.h" #include "Poco/Buffer.h" #include "Poco/FPEnvironment.h" #ifdef min #undef min #endif #ifdef max #undef max #endif #include #include #include #if !defined(POCO_NO_LOCALE) #include #endif // binary numbers are supported, thus 64 (bits) + 1 (string terminating zero) #define POCO_MAX_INT_STRING_LEN 65 // value from strtod.cc (double_conversion::kMaxSignificantDecimalDigits) #define POCO_MAX_FLT_STRING_LEN 780 #define POCO_FLT_INF "inf" #define POCO_FLT_NAN "nan" #define POCO_FLT_EXP 'e' namespace Poco { inline char decimalSeparator() /// Returns decimal separator from global locale or /// default '.' for platforms where locale is unavailable. { #if !defined(POCO_NO_LOCALE) return std::use_facet >(std::locale()).decimal_point(); #else return '.'; #endif } inline char thousandSeparator() /// Returns thousand separator from global locale or /// default ',' for platforms where locale is unavailable. { #if !defined(POCO_NO_LOCALE) return std::use_facet >(std::locale()).thousands_sep(); #else return ','; #endif } // // String to Number Conversions // template bool strToInt(const char* pStr, I& result, short base, char thSep = ',') /// Converts zero-terminated character array to integer number; /// Thousand separators are recognized for base10 and current locale; /// it is silently skipped but not verified for correct positioning. /// Function returns true if successful. If parsing was unsuccessful, /// the return value is false with the result value undetermined. { if (!pStr) return false; while (std::isspace(*pStr)) ++pStr; if (*pStr == '\0') return false; short sign = 1; if ((base == 10) && (*pStr == '-')) { // Unsigned types can't be negative so abort parsing if (std::numeric_limits::min() >= 0) return false; sign = -1; ++pStr; } else if (*pStr == '+') ++pStr; // parser states: const char STATE_SIGNIFICANT_DIGITS = 1; char state = 0; result = 0; I limitCheck = std::numeric_limits::max() / base; for (; *pStr != '\0'; ++pStr) { switch (*pStr) { case '0': if (state < STATE_SIGNIFICANT_DIGITS) break; case '1': case '2': case '3': case '4': case '5': case '6': case '7': if (state < STATE_SIGNIFICANT_DIGITS) state = STATE_SIGNIFICANT_DIGITS; if (result > limitCheck) return false; result = result * base + (*pStr - '0'); break; case '8': case '9': if ((base == 10) || (base == 0x10)) { if (state < STATE_SIGNIFICANT_DIGITS) state = STATE_SIGNIFICANT_DIGITS; if (result > limitCheck) return false; result = result * base + (*pStr - '0'); } else return false; break; case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': if (base != 0x10) return false; if (state < STATE_SIGNIFICANT_DIGITS) state = STATE_SIGNIFICANT_DIGITS; if (result > limitCheck) return false; result = result * base + (10 + *pStr - 'a'); break; case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': if (base != 0x10) return false; if (state < STATE_SIGNIFICANT_DIGITS) state = STATE_SIGNIFICANT_DIGITS; if (result > limitCheck) return false; result = result * base + (10 + *pStr - 'A'); break; case '.': if ((base == 10) && (thSep == '.')) break; else return false; case ',': if ((base == 10) && (thSep == ',')) break; else return false; case ' ': if ((base == 10) && (thSep == ' ')) break; // fallthrough default: return false; } } if ((sign < 0) && (base == 10)) result *= sign; return true; } template bool strToInt(const std::string& str, I& result, short base, char thSep = ',') /// Converts string to integer number; /// This is a wrapper function, for details see see the /// bool strToInt(const char*, I&, short, char) implementation. { return strToInt(str.c_str(), result, base, thSep); } // // Number to String Conversions // namespace Impl { class Ptr /// Utility char pointer wrapper class. /// Class ensures increment/decrement remain within boundaries. { public: Ptr(char* ptr, std::size_t offset): _beg(ptr), _cur(ptr), _end(ptr + offset) { } char*& operator ++ () // prefix { checkBounds(_cur + 1); return ++_cur; } char* operator ++ (int) // postfix { checkBounds(_cur + 1); char* tmp = _cur++; return tmp; } char*& operator -- () // prefix { checkBounds(_cur - 1); return --_cur; } char* operator -- (int) // postfix { checkBounds(_cur - 1); char* tmp = _cur--; return tmp; } char*& operator += (int incr) { checkBounds(_cur + incr); return _cur += incr; } char*& operator -= (int decr) { checkBounds(_cur - decr); return _cur -= decr; } operator char* () const { return _cur; } std::size_t span() const { return _end - _beg; } private: void checkBounds(char* ptr) { if (ptr > _end) throw RangeException(); } const char* _beg; char* _cur; const char* _end; }; } // namespace Impl template bool intToStr(T value, unsigned short base, char* result, std::size_t& size, bool prefix = false, int width = -1, char fill = ' ', char thSep = 0) /// Converts integer to string. Numeric bases from binary to hexadecimal are supported. /// If width is non-zero, it pads the return value with fill character to the specified width. /// When padding is zero character ('0'), it is prepended to the number itself; all other /// paddings are prepended to the formatted result with minus sign or base prefix included /// If prefix is true and base is octal or hexadecimal, respective prefix ('0' for octal, /// "0x" for hexadecimal) is prepended. For all other bases, prefix argument is ignored. /// Formatted string has at least [width] total length. { if (base < 2 || base > 0x10) { *result = '\0'; return false; } Impl::Ptr ptr(result, size); int thCount = 0; T tmpVal; do { tmpVal = value; value /= base; *ptr++ = "FEDCBA9876543210123456789ABCDEF"[15 + (tmpVal - value * base)]; if (thSep && (base == 10) && (++thCount == 3)) { *ptr++ = thSep; thCount = 0; } } while (value); if ('0' == fill) { if (tmpVal < 0) --width; if (prefix && base == 010) --width; if (prefix && base == 0x10) width -= 2; while ((ptr - result) < width) *ptr++ = fill; } if (prefix && base == 010) *ptr++ = '0'; else if (prefix && base == 0x10) { *ptr++ = 'x'; *ptr++ = '0'; } if (tmpVal < 0) *ptr++ = '-'; if ('0' != fill) { while ((ptr - result) < width) *ptr++ = fill; } size = ptr - result; poco_assert_dbg (size <= ptr.span()); poco_assert_dbg ((-1 == width) || (size >= std::size_t(width))); *ptr-- = '\0'; char* ptrr = result; char tmp; while(ptrr < ptr) { tmp = *ptr; *ptr-- = *ptrr; *ptrr++ = tmp; } return true; } template bool uIntToStr(T value, unsigned short base, char* result, std::size_t& size, bool prefix = false, int width = -1, char fill = ' ', char thSep = 0) /// Converts unsigned integer to string. Numeric bases from binary to hexadecimal are supported. /// If width is non-zero, it pads the return value with fill character to the specified width. /// When padding is zero character ('0'), it is prepended to the number itself; all other /// paddings are prepended to the formatted result with minus sign or base prefix included /// If prefix is true and base is octal or hexadecimal, respective prefix ('0' for octal, /// "0x" for hexadecimal) is prepended. For all other bases, prefix argument is ignored. /// Formatted string has at least [width] total length. { if (base < 2 || base > 0x10) { *result = '\0'; return false; } Impl::Ptr ptr(result, size); int thCount = 0; T tmpVal; do { tmpVal = value; value /= base; *ptr++ = "FEDCBA9876543210123456789ABCDEF"[15 + (tmpVal - value * base)]; if (thSep && (base == 10) && (++thCount == 3)) { *ptr++ = thSep; thCount = 0; } } while (value); if ('0' == fill) { if (prefix && base == 010) --width; if (prefix && base == 0x10) width -= 2; while ((ptr - result) < width) *ptr++ = fill; } if (prefix && base == 010) *ptr++ = '0'; else if (prefix && base == 0x10) { *ptr++ = 'x'; *ptr++ = '0'; } if ('0' != fill) { while ((ptr - result) < width) *ptr++ = fill; } size = ptr - result; poco_assert_dbg (size <= ptr.span()); poco_assert_dbg ((-1 == width) || (size >= std::size_t(width))); *ptr-- = '\0'; char* ptrr = result; char tmp; while(ptrr < ptr) { tmp = *ptr; *ptr-- = *ptrr; *ptrr++ = tmp; } return true; } template bool intToStr (T number, unsigned short base, std::string& result, bool prefix = false, int width = -1, char fill = ' ', char thSep = 0) /// Converts integer to string; This is a wrapper function, for details see see the /// bool intToStr(T, unsigned short, char*, int, int, char, char) implementation. { char res[POCO_MAX_INT_STRING_LEN] = {0}; std::size_t size = POCO_MAX_INT_STRING_LEN; bool ret = intToStr(number, base, res, size, prefix, width, fill, thSep); result.assign(res, size); return ret; } template bool uIntToStr (T number, unsigned short base, std::string& result, bool prefix = false, int width = -1, char fill = ' ', char thSep = 0) /// Converts unsigned integer to string; This is a wrapper function, for details see see the /// bool uIntToStr(T, unsigned short, char*, int, int, char, char) implementation. { char res[POCO_MAX_INT_STRING_LEN] = {0}; std::size_t size = POCO_MAX_INT_STRING_LEN; bool ret = uIntToStr(number, base, res, size, prefix, width, fill, thSep); result.assign(res, size); return ret; } // // Wrappers for double-conversion library (http://code.google.com/p/double-conversion/). // // Library is the implementation of the algorithm described in Florian Loitsch's paper: // http://florian.loitsch.com/publications/dtoa-pldi2010.pdf // Foundation_API void floatToStr(char* buffer, int bufferSize, float value, int lowDec = -std::numeric_limits::digits10, int highDec = std::numeric_limits::digits10); /// Converts a float value to string. Converted string must be shorter than bufferSize. /// Conversion is done by computing the shortest string of digits that correctly represents /// the input number. Depending on lowDec and highDec values, the function returns /// decimal or exponential representation. Foundation_API void floatToFixedStr(char* buffer, int bufferSize, float value, int precision); /// Converts a float value to string. Converted string must be shorter than bufferSize. /// Computes a decimal representation with a fixed number of digits after the /// decimal point. Foundation_API std::string& floatToStr(std::string& str, float value, int precision = -1, int width = 0, char thSep = 0, char decSep = 0); /// Converts a float value, assigns it to the supplied string and returns the reference. /// This function calls floatToStr(char*, int, float, int, int) and formats the result according to /// precision (total number of digits after the decimal point, -1 means ignore precision argument) /// and width (total length of formatted string). Foundation_API std::string& floatToFixedStr(std::string& str, float value, int precision, int width = 0, char thSep = 0, char decSep = 0); /// Converts a float value, assigns it to the supplied string and returns the reference. /// This function calls floatToFixedStr(char*, int, float, int) and formats the result according to /// precision (total number of digits after the decimal point) and width (total length of formatted string). Foundation_API void doubleToStr(char* buffer, int bufferSize, double value, int lowDec = -std::numeric_limits::digits10, int highDec = std::numeric_limits::digits10); /// Converts a double value to string. Converted string must be shorter than bufferSize. /// Conversion is done by computing the shortest string of digits that correctly represents /// the input number. Depending on lowDec and highDec values, the function returns /// decimal or exponential representation. Foundation_API void doubleToFixedStr(char* buffer, int bufferSize, double value, int precision); /// Converts a double value to string. Converted string must be shorter than bufferSize. /// Computes a decimal representation with a fixed number of digits after the /// decimal point. Foundation_API std::string& doubleToStr(std::string& str, double value, int precision = -1, int width = 0, char thSep = 0, char decSep = 0); /// Converts a double value, assigns it to the supplied string and returns the reference. /// This function calls doubleToStr(char*, int, double, int, int) and formats the result according to /// precision (total number of digits after the decimal point, -1 means ignore precision argument) /// and width (total length of formatted string). Foundation_API std::string& doubleToFixedStr(std::string& str, double value, int precision = -1, int width = 0, char thSep = 0, char decSep = 0); /// Converts a double value, assigns it to the supplied string and returns the reference. /// This function calls doubleToFixedStr(char*, int, double, int) and formats the result according to /// precision (total number of digits after the decimal point) and width (total length of formatted string). Foundation_API float strToFloat(const char* str); /// Converts the string of characters into single-precision floating point number. /// Function uses double_convesrion::DoubleToStringConverter to do the conversion. Foundation_API bool strToFloat(const std::string&, float& result, char decSep = '.', char thSep = ','); /// Converts the string of characters into single-precision floating point number. /// The conversion result is assigned to the result parameter. /// If decimal separator and/or thousand separator are different from defaults, they should be /// supplied to ensure proper conversion. /// /// Returns true if successful, false otherwise. Foundation_API double strToDouble(const char* str); /// Converts the string of characters into double-precision floating point number. Foundation_API bool strToDouble(const std::string& str, double& result, char decSep = '.', char thSep = ','); /// Converts the string of characters into double-precision floating point number. /// The conversion result is assigned to the result parameter. /// If decimal separator and/or thousand separator are different from defaults, they should be /// supplied to ensure proper conversion. /// /// Returns true if successful, false otherwise. } // namespace Poco #endif // Foundation_NumericString_INCLUDED