poco/Foundation/include/Poco/NumberFormatter.h
2022-07-04 14:25:02 -05:00

910 lines
29 KiB
C++

//
// NumberFormatter.h
//
// Library: Foundation
// Package: Core
// Module: NumberFormatter
//
// Definition of the NumberFormatter class.
//
// Copyright (c) 2004-2008, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// SPDX-License-Identifier: BSL-1.0
//
#ifndef Foundation_NumberFormatter_INCLUDED
#define Foundation_NumberFormatter_INCLUDED
#include "Poco/Foundation.h"
#include "Poco/NumericString.h"
namespace Poco {
class Foundation_API NumberFormatter
/// The NumberFormatter class provides static methods
/// for formatting numeric values into strings.
///
/// There are two kind of static member functions:
/// * format* functions return a std::string containing
/// the formatted value.
/// * append* functions append the formatted value to
/// an existing string.
{
public:
enum BoolFormat
{
FMT_TRUE_FALSE,
FMT_YES_NO,
FMT_ON_OFF
};
static const unsigned NF_MAX_INT_STRING_LEN = 32; // increase for 64-bit binary formatting support
static const unsigned NF_MAX_FLT_STRING_LEN = POCO_MAX_FLT_STRING_LEN;
static std::string format(int value);
/// Formats an integer value in decimal notation.
static std::string format(int value, int width);
/// Formats an integer value in decimal notation,
/// right justified in a field having at least
/// the specified width.
static std::string format0(int value, int width);
/// Formats an integer value in decimal notation,
/// right justified and zero-padded in a field
/// having at least the specified width.
static std::string formatHex(int value, bool prefix = false, bool upper = true);
/// Formats an int value in hexadecimal notation.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
/// The value is treated as unsigned.
static std::string formatHex(int value, int width, bool prefix = false, bool upper = true);
/// Formats a int value in hexadecimal notation,
/// right justified and zero-padded in
/// a field having at least the specified width.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
/// The value is treated as unsigned.
static std::string format(unsigned value);
/// Formats an unsigned int value in decimal notation.
static std::string format(unsigned value, int width);
/// Formats an unsigned long int in decimal notation,
/// right justified in a field having at least the
/// specified width.
static std::string format0(unsigned int value, int width);
/// Formats an unsigned int value in decimal notation,
/// right justified and zero-padded in a field having at
/// least the specified width.
static std::string formatHex(unsigned value, bool prefix = false, bool upper = true);
/// Formats an unsigned int value in hexadecimal notation.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
static std::string formatHex(unsigned value, int width, bool prefix = false, bool upper = true);
/// Formats a int value in hexadecimal notation,
/// right justified and zero-padded in
/// a field having at least the specified width.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
static std::string format(long value);
/// Formats a long value in decimal notation.
static std::string format(long value, int width);
/// Formats a long value in decimal notation,
/// right justified in a field having at least the
/// specified width.
static std::string format0(long value, int width);
/// Formats a long value in decimal notation,
/// right justified and zero-padded in a field
/// having at least the specified width.
static std::string formatHex(long value, bool prefix = false, bool upper = true);
/// Formats an unsigned long value in hexadecimal notation.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
/// The value is treated as unsigned.
static std::string formatHex(long value, int width, bool prefix = false, bool upper = true);
/// Formats an unsigned long value in hexadecimal notation,
/// right justified and zero-padded in a field having at least the
/// specified width.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
/// The value is treated as unsigned.
static std::string format(unsigned long value);
/// Formats an unsigned long value in decimal notation.
static std::string format(unsigned long value, int width);
/// Formats an unsigned long value in decimal notation,
/// right justified in a field having at least the specified
/// width.
static std::string format0(unsigned long value, int width);
/// Formats an unsigned long value in decimal notation,
/// right justified and zero-padded
/// in a field having at least the specified width.
static std::string formatHex(unsigned long value, bool prefix = false, bool upper = true);
/// Formats an unsigned long value in hexadecimal notation.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
static std::string formatHex(unsigned long value, int width, bool prefix = false, bool upper = true);
/// Formats an unsigned long value in hexadecimal notation,
/// right justified and zero-padded in a field having at least the
/// specified width.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
#ifdef POCO_HAVE_INT64
#ifdef POCO_INT64_IS_LONG
static std::string format(long long value);
/// Formats a 64-bit integer value in decimal notation.
static std::string format(long long value, int width);
/// Formats a 64-bit integer value in decimal notation,
/// right justified in a field having at least the specified width.
static std::string format0(long long value, int width);
/// Formats a 64-bit integer value in decimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width.
static std::string formatHex(long long value, bool prefix = false, bool upper = true);
/// Formats a 64-bit integer value in hexadecimal notation.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
/// The value is treated as unsigned.
static std::string formatHex(long long value, int width, bool prefix = false, bool upper = true);
/// Formats a 64-bit integer value in hexadecimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width.
/// The value is treated as unsigned.
/// If prefix is true, "0x" prefix is prepended to the resulting string.
static std::string format(unsigned long long value);
/// Formats an unsigned 64-bit integer value in decimal notation.
static std::string format(unsigned long long value, int width);
/// Formats an unsigned 64-bit integer value in decimal notation,
/// right justified in a field having at least the specified width.
static std::string format0(unsigned long long value, int width);
/// Formats an unsigned 64-bit integer value in decimal notation,
/// right justified and zero-padded in a field having at least the
/// specified width.
static std::string formatHex(unsigned long long value, bool prefix = false, bool upper = true);
/// Formats a 64-bit integer value in hexadecimal notation.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
static std::string formatHex(unsigned long long value, int width, bool prefix = false, bool upper = true);
/// Formats a 64-bit integer value in hexadecimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width. If prefix is true, "0x" prefix is
/// prepended to the resulting string.
#else // ifndef POCO_INT64_IS_LONG
static std::string format(Int64 value);
/// Formats a 64-bit integer value in decimal notation.
static std::string format(Int64 value, int width);
/// Formats a 64-bit integer value in decimal notation,
/// right justified in a field having at least the specified width.
static std::string format0(Int64 value, int width);
/// Formats a 64-bit integer value in decimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width.
static std::string formatHex(Int64 value, bool prefix = false, bool upper = true);
/// Formats a 64-bit integer value in hexadecimal notation.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
/// The value is treated as unsigned.
static std::string formatHex(Int64 value, int width, bool prefix = false, bool upper = true);
/// Formats a 64-bit integer value in hexadecimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width.
/// The value is treated as unsigned.
/// If prefix is true, "0x" prefix is prepended to the resulting string.
static std::string format(UInt64 value);
/// Formats an unsigned 64-bit integer value in decimal notation.
static std::string format(UInt64 value, int width);
/// Formats an unsigned 64-bit integer value in decimal notation,
/// right justified in a field having at least the specified width.
static std::string format0(UInt64 value, int width);
/// Formats an unsigned 64-bit integer value in decimal notation,
/// right justified and zero-padded in a field having at least the
/// specified width.
static std::string formatHex(UInt64 value, bool prefix = false, bool upper = true);
/// Formats a 64-bit integer value in hexadecimal notation.
/// If prefix is true, "0x" prefix is prepended to the
/// resulting string.
static std::string formatHex(UInt64 value, int width, bool prefix = false, bool upper = true);
/// Formats a 64-bit integer value in hexadecimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width. If prefix is true, "0x" prefix is
/// prepended to the resulting string.
#endif // ifdef POCO_INT64_IS_LONG
#endif // ifdef POCO_HAVE_INT64
static std::string format(float value);
/// Formats a float value in decimal floating-point notation,
/// according to std::printf's %g format with a precision of 8 fractional digits.
static std::string format(float value, int precision);
/// Formats a double value in decimal floating-point notation,
/// according to std::printf's %f format with the given precision.
static std::string format(float value, int width, int precision);
/// Formats a double value in decimal floating-point notation,
/// right justified in a field of the specified width,
/// with the number of fractional digits given in precision.
static std::string format(double value);
/// Formats a double value in decimal floating-point notation,
/// according to std::printf's %g format with a precision of 16 fractional digits.
static std::string format(double value, int precision);
/// Formats a double value in decimal floating-point notation,
/// according to std::printf's %f format with the given precision.
static std::string format(double value, int width, int precision);
/// Formats a double value in decimal floating-point notation,
/// right justified in a field of the specified width,
/// with the number of fractional digits given in precision.
static std::string format(const void* ptr);
/// Formats a pointer in an eight (32-bit architectures) or
/// sixteen (64-bit architectures) characters wide
/// field in hexadecimal notation.
static std::string format(bool value, BoolFormat format = FMT_TRUE_FALSE);
/// Formats a bool value in decimal/text notation,
/// according to format parameter.
static void append(std::string& str, int value);
/// Formats an integer value in decimal notation.
static void append(std::string& str, int value, int width);
/// Formats an integer value in decimal notation,
/// right justified in a field having at least
/// the specified width.
static void append0(std::string& str, int value, int width);
/// Formats an integer value in decimal notation,
/// right justified and zero-padded in a field
/// having at least the specified width.
static void appendHex(std::string& str, int value);
/// Formats an int value in hexadecimal notation.
/// The value is treated as unsigned.
static void appendHex(std::string& str, int value, int width);
/// Formats a int value in hexadecimal notation,
/// right justified and zero-padded in
/// a field having at least the specified width.
/// The value is treated as unsigned.
static void append(std::string& str, unsigned value);
/// Formats an unsigned int value in decimal notation.
static void append(std::string& str, unsigned value, int width);
/// Formats an unsigned long int in decimal notation,
/// right justified in a field having at least the
/// specified width.
static void append0(std::string& str, unsigned int value, int width);
/// Formats an unsigned int value in decimal notation,
/// right justified and zero-padded in a field having at
/// least the specified width.
static void appendHex(std::string& str, unsigned value);
/// Formats an unsigned int value in hexadecimal notation.
static void appendHex(std::string& str, unsigned value, int width);
/// Formats a int value in hexadecimal notation,
/// right justified and zero-padded in
/// a field having at least the specified width.
static void append(std::string& str, long value);
/// Formats a long value in decimal notation.
static void append(std::string& str, long value, int width);
/// Formats a long value in decimal notation,
/// right justified in a field having at least the
/// specified width.
static void append0(std::string& str, long value, int width);
/// Formats a long value in decimal notation,
/// right justified and zero-padded in a field
/// having at least the specified width.
static void appendHex(std::string& str, long value);
/// Formats an unsigned long value in hexadecimal notation.
/// The value is treated as unsigned.
static void appendHex(std::string& str, long value, int width);
/// Formats an unsigned long value in hexadecimal notation,
/// right justified and zero-padded in a field having at least the
/// specified width.
/// The value is treated as unsigned.
static void append(std::string& str, unsigned long value);
/// Formats an unsigned long value in decimal notation.
static void append(std::string& str, unsigned long value, int width);
/// Formats an unsigned long value in decimal notation,
/// right justified in a field having at least the specified
/// width.
static void append0(std::string& str, unsigned long value, int width);
/// Formats an unsigned long value in decimal notation,
/// right justified and zero-padded
/// in a field having at least the specified width.
static void appendHex(std::string& str, unsigned long value);
/// Formats an unsigned long value in hexadecimal notation.
static void appendHex(std::string& str, unsigned long value, int width);
/// Formats an unsigned long value in hexadecimal notation,
/// right justified and zero-padded in a field having at least the
/// specified width.
#ifdef POCO_HAVE_INT64
#ifdef POCO_INT64_IS_LONG
static void append(std::string& str, long long value);
/// Formats a 64-bit integer value in decimal notation.
static void append(std::string& str, long long value, int width);
/// Formats a 64-bit integer value in decimal notation,
/// right justified in a field having at least the specified width.
static void append0(std::string& str, long long value, int width);
/// Formats a 64-bit integer value in decimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width.
static void appendHex(std::string& str, long long value);
/// Formats a 64-bit integer value in hexadecimal notation.
/// The value is treated as unsigned.
static void appendHex(std::string& str, long long value, int width);
/// Formats a 64-bit integer value in hexadecimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width.
/// The value is treated as unsigned.
static void append(std::string& str, unsigned long long value);
/// Formats an unsigned 64-bit integer value in decimal notation.
static void append(std::string& str, unsigned long long value, int width);
/// Formats an unsigned 64-bit integer value in decimal notation,
/// right justified in a field having at least the specified width.
static void append0(std::string& str, unsigned long long value, int width);
/// Formats an unsigned 64-bit integer value in decimal notation,
/// right justified and zero-padded in a field having at least the
/// specified width.
static void appendHex(std::string& str, unsigned long long value);
/// Formats a 64-bit integer value in hexadecimal notation.
static void appendHex(std::string& str, unsigned long long value, int width);
/// Formats a 64-bit integer value in hexadecimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width.
#else // ifndef POCO_INT64_IS_LONG
static void append(std::string& str, Int64 value);
/// Formats a 64-bit integer value in decimal notation.
static void append(std::string& str, Int64 value, int width);
/// Formats a 64-bit integer value in decimal notation,
/// right justified in a field having at least the specified width.
static void append0(std::string& str, Int64 value, int width);
/// Formats a 64-bit integer value in decimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width.
static void appendHex(std::string& str, Int64 value);
/// Formats a 64-bit integer value in hexadecimal notation.
/// The value is treated as unsigned.
static void appendHex(std::string& str, Int64 value, int width);
/// Formats a 64-bit integer value in hexadecimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width.
/// The value is treated as unsigned.
static void append(std::string& str, UInt64 value);
/// Formats an unsigned 64-bit integer value in decimal notation.
static void append(std::string& str, UInt64 value, int width);
/// Formats an unsigned 64-bit integer value in decimal notation,
/// right justified in a field having at least the specified width.
static void append0(std::string& str, UInt64 value, int width);
/// Formats an unsigned 64-bit integer value in decimal notation,
/// right justified and zero-padded in a field having at least the
/// specified width.
static void appendHex(std::string& str, UInt64 value);
/// Formats a 64-bit integer value in hexadecimal notation.
static void appendHex(std::string& str, UInt64 value, int width);
/// Formats a 64-bit integer value in hexadecimal notation,
/// right justified and zero-padded in a field having at least
/// the specified width.
#endif // ifdef POCO_INT64_IS_LONG
#endif // ifdef POCO_HAVE_INT64
static void append(std::string& str, float value);
/// Formats a float value in decimal floating-point notation,
/// according to std::printf's %g format with a precision of 8 fractional digits.
static void append(std::string& str, float value, int precision);
/// Formats a double value in decimal floating-point notation,
/// according to std::printf's %f format with the given precision.
static void append(std::string& str, float value, int width, int precision);
/// Formats a double value in decimal floating-point notation,
/// right justified in a field of the specified width,
/// with the number of fractional digits given in precision.
static void append(std::string& str, double value);
/// Formats a double value in decimal floating-point notation,
/// according to std::printf's %g format with a precision of 16 fractional digits.
static void append(std::string& str, double value, int precision);
/// Formats a double value in decimal floating-point notation,
/// according to std::printf's %f format with the given precision.
static void append(std::string& str, double value, int width, int precision);
/// Formats a double value in decimal floating-point notation,
/// right justified in a field of the specified width,
/// with the number of fractional digits given in precision.
static void append(std::string& str, const void* ptr);
/// Formats a pointer in an eight (32-bit architectures) or
/// sixteen (64-bit architectures) characters wide
/// field in hexadecimal notation.
private:
};
//
// inlines
//
inline std::string NumberFormatter::format(int value)
{
std::string result;
intToStr(value, 10, result);
return result;
}
inline std::string NumberFormatter::format(int value, int width)
{
std::string result;
intToStr(value, 10, result, false, width, ' ');
return result;
}
inline std::string NumberFormatter::format0(int value, int width)
{
std::string result;
intToStr(value, 10, result, false, width, '0');
return result;
}
inline std::string NumberFormatter::formatHex(int value, bool prefix, bool upper)
{
std::string result;
uIntToStr(static_cast<unsigned int>(value), 0x10, result, prefix, -1, ' ', 0, upper);
return result;
}
inline std::string NumberFormatter::formatHex(int value, int width, bool prefix, bool upper)
{
std::string result;
uIntToStr(static_cast<unsigned int>(value), 0x10, result, prefix, width, '0', 0, upper);
return result;
}
inline std::string NumberFormatter::format(unsigned value)
{
std::string result;
uIntToStr(value, 10, result);
return result;
}
inline std::string NumberFormatter::format(unsigned value, int width)
{
std::string result;
uIntToStr(value, 10, result, false, width, ' ');
return result;
}
inline std::string NumberFormatter::format0(unsigned int value, int width)
{
std::string result;
uIntToStr(value, 10, result, false, width, '0');
return result;
}
inline std::string NumberFormatter::formatHex(unsigned value, bool prefix, bool upper)
{
std::string result;
uIntToStr(value, 0x10, result, prefix, -1, ' ', 0, upper);
return result;
}
inline std::string NumberFormatter::formatHex(unsigned value, int width, bool prefix, bool upper)
{
std::string result;
uIntToStr(value, 0x10, result, prefix, width, '0', 0, upper);
return result;
}
inline std::string NumberFormatter::format(long value)
{
std::string result;
intToStr(value, 10, result);
return result;
}
inline std::string NumberFormatter::format(long value, int width)
{
std::string result;
intToStr(value, 10, result, false, width, ' ');
return result;
}
inline std::string NumberFormatter::format0(long value, int width)
{
std::string result;
intToStr(value, 10, result, false, width, '0');
return result;
}
inline std::string NumberFormatter::formatHex(long value, bool prefix, bool upper)
{
std::string result;
uIntToStr(static_cast<unsigned long>(value), 0x10, result, prefix, -1, ' ', 0, upper);
return result;
}
inline std::string NumberFormatter::formatHex(long value, int width, bool prefix, bool upper)
{
std::string result;
uIntToStr(static_cast<unsigned long>(value), 0x10, result, prefix, width, '0', 0, upper);
return result;
}
inline std::string NumberFormatter::format(unsigned long value)
{
std::string result;
uIntToStr(value, 10, result);
return result;
}
inline std::string NumberFormatter::format(unsigned long value, int width)
{
std::string result;
uIntToStr(value, 10, result, false, width, ' ');
return result;
}
inline std::string NumberFormatter::format0(unsigned long value, int width)
{
std::string result;
uIntToStr(value, 10, result, false, width, '0');
return result;
}
inline std::string NumberFormatter::formatHex(unsigned long value, bool prefix, bool upper)
{
std::string result;
uIntToStr(value, 0x10, result, prefix, -1, ' ', 0, upper);
return result;
}
inline std::string NumberFormatter::formatHex(unsigned long value, int width, bool prefix, bool upper)
{
std::string result;
uIntToStr(value, 0x10, result, prefix, width, '0', 0, upper);
return result;
}
#ifdef POCO_HAVE_INT64
#ifdef POCO_INT64_IS_LONG
inline std::string NumberFormatter::format(long long value)
{
std::string result;
intToStr(value, 10, result);
return result;
}
inline std::string NumberFormatter::format(long long value, int width)
{
std::string result;
intToStr(value, 10, result, false, width, ' ');
return result;
}
inline std::string NumberFormatter::format0(long long value, int width)
{
std::string result;
intToStr(value, 10, result, false, width, '0');
return result;
}
inline std::string NumberFormatter::formatHex(long long value, bool prefix, bool upper)
{
std::string result;
uIntToStr(static_cast<unsigned long long>(value), 0x10, result, prefix, -1, ' ', 0, upper);
return result;
}
inline std::string NumberFormatter::formatHex(long long value, int width, bool prefix, bool upper)
{
std::string result;
uIntToStr(static_cast<unsigned long long>(value), 0x10, result, prefix, width, '0', 0, upper);
return result;
}
inline std::string NumberFormatter::format(unsigned long long value)
{
std::string result;
uIntToStr(value, 10, result);
return result;
}
inline std::string NumberFormatter::format(unsigned long long value, int width)
{
std::string result;
uIntToStr(value, 10, result, false, width, ' ');
return result;
}
inline std::string NumberFormatter::format0(unsigned long long value, int width)
{
std::string result;
uIntToStr(value, 10, result, false, width, '0');
return result;
}
inline std::string NumberFormatter::formatHex(unsigned long long value, bool prefix, bool upper)
{
std::string result;
uIntToStr(value, 0x10, result, prefix, -1, ' ', 0, upper);
return result;
}
inline std::string NumberFormatter::formatHex(unsigned long long value, int width, bool prefix, bool upper)
{
std::string result;
uIntToStr(value, 0x10, result, prefix, width, '0', 0, upper);
return result;
}
#else // ifndef POCO_LONG_IS_64_BIT
inline std::string NumberFormatter::format(Int64 value)
{
std::string result;
intToStr(value, 10, result);
return result;
}
inline std::string NumberFormatter::format(Int64 value, int width)
{
std::string result;
intToStr(value, 10, result, false, width, ' ');
return result;
}
inline std::string NumberFormatter::format0(Int64 value, int width)
{
std::string result;
intToStr(value, 10, result, false, width, '0');
return result;
}
inline std::string NumberFormatter::formatHex(Int64 value, bool prefix, bool upper)
{
std::string result;
uIntToStr(static_cast<UInt64>(value), 0x10, result, prefix, -1, ' ', 0, upper);
return result;
}
inline std::string NumberFormatter::formatHex(Int64 value, int width, bool prefix, bool upper)
{
std::string result;
uIntToStr(static_cast<UInt64>(value), 0x10, result, prefix, width, '0', 0, upper);
return result;
}
inline std::string NumberFormatter::format(UInt64 value)
{
std::string result;
uIntToStr(value, 10, result);
return result;
}
inline std::string NumberFormatter::format(UInt64 value, int width)
{
std::string result;
uIntToStr(value, 10, result, false, width, ' ');
return result;
}
inline std::string NumberFormatter::format0(UInt64 value, int width)
{
std::string result;
uIntToStr(value, 10, result, false, width, '0');
return result;
}
inline std::string NumberFormatter::formatHex(UInt64 value, bool prefix, bool upper)
{
std::string result;
uIntToStr(value, 0x10, result, prefix, -1, ' ', 0, upper);
return result;
}
inline std::string NumberFormatter::formatHex(UInt64 value, int width, bool prefix, bool upper)
{
std::string result;
uIntToStr(value, 0x10, result, prefix, width, '0', 0, upper);
return result;
}
#endif // ifdef POCO_INT64_IS_LONG
#endif // ifdef POCO_HAVE_INT64
inline std::string NumberFormatter::format(float value)
{
char buffer[POCO_MAX_FLT_STRING_LEN];
floatToStr(buffer, POCO_MAX_FLT_STRING_LEN, value);
return std::string(buffer);
}
inline std::string NumberFormatter::format(float value, int precision)
{
if (precision < 0)
throw InvalidArgumentException("NumberFormatter::format() requires non-negative precision.");
char buffer[POCO_MAX_FLT_STRING_LEN];
floatToFixedStr(buffer, POCO_MAX_FLT_STRING_LEN, value, precision);
return std::string(buffer);
}
inline std::string NumberFormatter::format(float value, int width, int precision)
{
if (precision < 0)
throw InvalidArgumentException("NumberFormatter::format() requires non-negative precision.");
std::string result;
floatToFixedStr(result, value, precision, width);
return result;
}
inline std::string NumberFormatter::format(double value)
{
char buffer[POCO_MAX_FLT_STRING_LEN];
doubleToStr(buffer, POCO_MAX_FLT_STRING_LEN, value);
return std::string(buffer);
}
inline std::string NumberFormatter::format(double value, int precision)
{
if (precision < 0)
throw InvalidArgumentException("NumberFormatter::format() requires non-negative precision.");
char buffer[POCO_MAX_FLT_STRING_LEN];
doubleToFixedStr(buffer, POCO_MAX_FLT_STRING_LEN, value, precision);
return std::string(buffer);
}
inline std::string NumberFormatter::format(double value, int width, int precision)
{
if (precision < 0)
throw InvalidArgumentException("NumberFormatter::format() requires non-negative precision.");
std::string result;
doubleToFixedStr(result, value, precision, width);
return result;
}
inline std::string NumberFormatter::format(const void* ptr)
{
std::string result;
append(result, ptr);
return result;
}
} // namespace Poco
#endif // Foundation_NumberFormatter_INCLUDED