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SqMod/vendor/POCO/Foundation/include/Poco/NumericString.h

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//
// 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 <limits>
#include <cmath>
#include <cctype>
#if !defined(POCO_NO_LOCALE)
#include <locale>
#endif
#if defined(POCO_NOINTMAX)
typedef Poco::UInt64 uintmax_t;
typedef Poco::Int64 intmax_t;
#endif
#if !defined (INTMAX_MAX)
#define INTMAX_MAX std::numeric_limits<intmax_t>::max()
#endif
#ifdef POCO_COMPILER_MSVC
#pragma warning(push)
#pragma warning(disable : 4146)
#endif // POCO_COMPILER_MSVC
// 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 {
namespace Impl {
template<bool SIGNED, typename T>
class IsNegativeImpl;
template<typename T>
class IsNegativeImpl<true, T>
{
public:
bool operator()(T x) { return x < 0; }
};
template<typename T>
class IsNegativeImpl<false, T>
{
public:
bool operator()(T) { return false; }
};
}
template<typename T>
inline bool isNegative(T x)
{
using namespace Impl;
return IsNegativeImpl<std::numeric_limits<T>::is_signed, T>()(x);
}
template<typename To, typename From>
inline bool isIntOverflow(From val)
{
poco_assert_dbg (std::numeric_limits<From>::is_integer);
poco_assert_dbg (std::numeric_limits<To>::is_integer);
bool ret;
if (std::numeric_limits<To>::is_signed)
{
ret = (!std::numeric_limits<From>::is_signed &&
(uintmax_t)val > (uintmax_t)INTMAX_MAX) ||
(intmax_t)val < (intmax_t)std::numeric_limits<To>::min() ||
(intmax_t)val > (intmax_t)std::numeric_limits<To>::max();
}
else
{
ret = isNegative(val) ||
(uintmax_t)val > (uintmax_t)std::numeric_limits<To>::max();
}
return ret;
}
template <typename F, typename T>
inline T& isSafeIntCast(F from)
/// Returns true if it is safe to cast
/// integer from F to T.
{
if (!isIntOverflow<T, F>(from)) return true;
return false;
}
template <typename F, typename T>
inline T& safeIntCast(F from, T& to)
/// Returns csted value if it is safe
/// to cast integer from F to T,
/// otherwise throws BadCastException.
{
if (!isIntOverflow<T, F>(from))
{
to = static_cast<T>(from);
return to;
}
throw BadCastException("safeIntCast: Integer overflow");
}
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::numpunct<char>>(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::numpunct<char>>(std::locale()).thousands_sep();
#else
return ',';
#endif
}
//
// String to Number Conversions
//
template <typename I>
bool strToInt(const char* pStr, I& outResult, short base, char thSep = ',')
/// Converts zero-terminated character array to integer number;
/// Thousand separators are recognized for base10 and current locale;
/// they are silently skipped and not verified for correct positioning.
/// It is not allowed to convert a negative number to unsigned integer.
///
/// Function returns true if successful. If parsing was unsuccessful,
/// the return value is false with the result value undetermined.
{
poco_assert_dbg (base == 2 || base == 8 || base == 10 || base == 16);
if (!pStr) return false;
while (std::isspace(*pStr)) ++pStr;
if (*pStr == '\0') return false;
bool negative = false;
if ((base == 10) && (*pStr == '-'))
{
if (!std::numeric_limits<I>::is_signed) return false;
negative = true;
++pStr;
}
else if (*pStr == '+') ++pStr;
// all numbers are parsed as positive; the sign
// for negative numbers is adjusted after parsing
uintmax_t limitCheck = std::numeric_limits<I>::max();
if (negative)
{
poco_assert_dbg(std::numeric_limits<I>::is_signed);
// to cover the entire range, (-min > max) has to be
// taken into account;
// to avoid overflow for the largest int size,
// we resort to FPEnvironment::copySign() (ie. floating-point)
if (sizeof(I) == sizeof(intmax_t))
limitCheck = static_cast<uintmax_t>(FPEnvironment::copySign(static_cast<double>(std::numeric_limits<I>::min()), 1));
else
{
intmax_t i = std::numeric_limits<I>::min();
limitCheck = -i;
}
}
uintmax_t result = 0;
for (; *pStr != '\0'; ++pStr)
{
if (result > (limitCheck / base)) return false;
switch (*pStr)
{
case '0': case '1': case '2': case '3':
case '4': case '5': case '6': case '7':
{
char add = (*pStr - '0');
if ((limitCheck - result) < add) return false;
result = result * base + add;
}
break;
case '8': case '9':
if ((base == 10) || (base == 0x10))
{
char add = (*pStr - '0');
if ((limitCheck - result) < add) return false;
result = result * base + add;
}
else return false;
break;
case 'a': case 'b': case 'c': case 'd': case 'e': case 'f':
{
if (base != 0x10) return false;
char add = (*pStr - 'a');
if ((limitCheck - result) < add) return false;
result = result * base + (10 + add);
}
break;
case 'A': case 'B': case 'C': case 'D': case 'E': case 'F':
{
if (base != 0x10) return false;
char add = (*pStr - 'A');
if ((limitCheck - result) < add) return false;
result = result * base + (10 + add);
}
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;
default:
return false;
}
}
if (negative && (base == 10))
{
poco_assert_dbg(std::numeric_limits<I>::is_signed);
intmax_t i;
if (sizeof(I) == sizeof(intmax_t))
i = static_cast<intmax_t>(FPEnvironment::copySign(static_cast<double>(result), -1));
else
i = static_cast<intmax_t>(-result);
if (isIntOverflow<I>(i)) return false;
outResult = static_cast<I>(i);
}
else
{
if (isIntOverflow<I>(result)) return false;
outResult = static_cast<I>(result);
}
return true;
}
template <typename I>
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 <typename T>
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 >= size_t(width)));
*ptr-- = '\0';
char* ptrr = result;
char tmp;
while(ptrr < ptr)
{
tmp = *ptr;
*ptr-- = *ptrr;
*ptrr++ = tmp;
}
return true;
}
template <typename T>
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 >= size_t(width)));
*ptr-- = '\0';
char* ptrr = result;
char tmp;
while(ptrr < ptr)
{
tmp = *ptr;
*ptr-- = *ptrr;
*ptrr++ = tmp;
}
return true;
}
template <typename T>
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 <typename T>
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<float>::digits10,
int highDec = std::numeric_limits<float>::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<double>::digits10,
int highDec = std::numeric_limits<double>::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,
const char* inf = POCO_FLT_INF, const char* nan = POCO_FLT_NAN);
/// Converts the string of characters into single-precision floating point number.
/// Function uses double_conversion::DoubleToStringConverter to do the conversion.
Foundation_API bool strToFloat(const std::string&, float& result,
char decSep = '.', char thSep = ',',
const char* inf = POCO_FLT_INF, const char* nan = POCO_FLT_NAN);
/// 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,
const char* inf = POCO_FLT_INF, const char* nan = POCO_FLT_NAN);
/// 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 = ',',
const char* inf = POCO_FLT_INF, const char* nan = POCO_FLT_NAN);
/// 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
#ifdef POCO_COMPILER_MSVC
#pragma warning(pop)
#endif // POCO_COMPILER_MSVC
#endif // Foundation_NumericString_INCLUDED