// // NumberFormatter.h // // $Id: //poco/1.4/Foundation/include/Poco/NumberFormatter.h#1 $ // // Library: Foundation // Package: Core // Module: NumberFormatter // // Definition of the NumberFormatter class. // // Copyright (c) 2004-2008, Applied Informatics Software Engineering GmbH. // and Contributors. // // Permission is hereby granted, free of charge, to any person or organization // obtaining a copy of the software and accompanying documentation covered by // this license (the "Software") to use, reproduce, display, distribute, // execute, and transmit the Software, and to prepare derivative works of the // Software, and to permit third-parties to whom the Software is furnished to // do so, all subject to the following: // // The copyright notices in the Software and this entire statement, including // the above license grant, this restriction and the following disclaimer, // must be included in all copies of the Software, in whole or in part, and // all derivative works of the Software, unless such copies or derivative // works are solely in the form of machine-executable object code generated by // a source language processor. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE, TITLE AND NON-INFRINGEMENT. IN NO EVENT // SHALL THE COPYRIGHT HOLDERS OR ANYONE DISTRIBUTING THE SOFTWARE BE LIABLE // FOR ANY DAMAGES OR OTHER LIABILITY, WHETHER IN CONTRACT, TORT OR OTHERWISE, // ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER // DEALINGS IN THE SOFTWARE. // #ifndef Foundation_NumberFormatter_INCLUDED #define Foundation_NumberFormatter_INCLUDED #include "Poco/Foundation.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. /// /// Internally, std::sprintf() is used to do the actual /// formatting. { public: enum BoolFormat { FMT_TRUE_FALSE, FMT_YES_NO, FMT_ON_OFF }; 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); /// Formats an int value in hexadecimal notation. /// The value is treated as unsigned. static std::string formatHex(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 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); /// Formats an unsigned int value in hexadecimal notation. static std::string formatHex(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 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); /// Formats an unsigned long value in hexadecimal notation. /// The value is treated as unsigned. static std::string formatHex(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 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); /// Formats an unsigned long value in hexadecimal notation. static std::string formatHex(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. #if defined(POCO_HAVE_INT64) && !defined(POCO_LONG_IS_64_BIT) 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); /// Formats a 64-bit integer value in hexadecimal notation. /// The value is treated as unsigned. static std::string formatHex(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 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); /// Formats a 64-bit integer value in hexadecimal notation. static std::string formatHex(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 // defined(POCO_HAVE_INT64) && !defined(POCO_LONG_IS_64_BIT) 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(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. #if defined(POCO_HAVE_INT64) && !defined(POCO_LONG_IS_64_BIT) 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 // defined(POCO_HAVE_INT64) && !defined(POCO_LONG_IS_64_BIT) 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, 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. }; // // inlines // inline std::string NumberFormatter::format(int value) { std::string result; append(result, value); return result; } inline std::string NumberFormatter::format(int value, int width) { std::string result; append(result, value, width); return result; } inline std::string NumberFormatter::format0(int value, int width) { std::string result; append0(result, value, width); return result; } inline std::string NumberFormatter::formatHex(int value) { std::string result; appendHex(result, value); return result; } inline std::string NumberFormatter::formatHex(int value, int width) { std::string result; appendHex(result, value, width); return result; } inline std::string NumberFormatter::format(unsigned value) { std::string result; append(result, value); return result; } inline std::string NumberFormatter::format(unsigned value, int width) { std::string result; append(result, value, width); return result; } inline std::string NumberFormatter::format0(unsigned int value, int width) { std::string result; append0(result, value, width); return result; } inline std::string NumberFormatter::formatHex(unsigned value) { std::string result; appendHex(result, value); return result; } inline std::string NumberFormatter::formatHex(unsigned value, int width) { std::string result; appendHex(result, value, width); return result; } inline std::string NumberFormatter::format(long value) { std::string result; append(result, value); return result; } inline std::string NumberFormatter::format(long value, int width) { std::string result; append(result, value, width); return result; } inline std::string NumberFormatter::format0(long value, int width) { std::string result; append0(result, value, width); return result; } inline std::string NumberFormatter::formatHex(long value) { std::string result; appendHex(result, value); return result; } inline std::string NumberFormatter::formatHex(long value, int width) { std::string result; appendHex(result, value, width); return result; } inline std::string NumberFormatter::format(unsigned long value) { std::string result; append(result, value); return result; } inline std::string NumberFormatter::format(unsigned long value, int width) { std::string result; append(result, value, width); return result; } inline std::string NumberFormatter::format0(unsigned long value, int width) { std::string result; append0(result, value, width); return result; } inline std::string NumberFormatter::formatHex(unsigned long value) { std::string result; appendHex(result, value); return result; } inline std::string NumberFormatter::formatHex(unsigned long value, int width) { std::string result; appendHex(result, value, width); return result; } #if defined(POCO_HAVE_INT64) && !defined(POCO_LONG_IS_64_BIT) inline std::string NumberFormatter::format(Int64 value) { std::string result; append(result, value); return result; } inline std::string NumberFormatter::format(Int64 value, int width) { std::string result; append(result, value, width); return result; } inline std::string NumberFormatter::format0(Int64 value, int width) { std::string result; append0(result, value, width); return result; } inline std::string NumberFormatter::formatHex(Int64 value) { std::string result; appendHex(result, value); return result; } inline std::string NumberFormatter::formatHex(Int64 value, int width) { std::string result; appendHex(result, value, width); return result; } inline std::string NumberFormatter::format(UInt64 value) { std::string result; append(result, value); return result; } inline std::string NumberFormatter::format(UInt64 value, int width) { std::string result; append(result, value, width); return result; } inline std::string NumberFormatter::format0(UInt64 value, int width) { std::string result; append0(result, value, width); return result; } inline std::string NumberFormatter::formatHex(UInt64 value) { std::string result; appendHex(result, value); return result; } inline std::string NumberFormatter::formatHex(UInt64 value, int width) { std::string result; appendHex(result, value, width); return result; } #endif // defined(POCO_HAVE_INT64) && !defined(POCO_LONG_IS_64_BIT) inline std::string NumberFormatter::format(float value) { std::string result; append(result, value); return result; } inline std::string NumberFormatter::format(double value) { std::string result; append(result, value); return result; } inline std::string NumberFormatter::format(double value, int precision) { std::string result; append(result, value, precision); return result; } inline std::string NumberFormatter::format(double value, int width, int precision) { std::string result; append(result, value, width, precision); return result; } inline std::string NumberFormatter::format(const void* ptr) { std::string result; append(result, ptr); return result; } } // namespace Poco #endif // Foundation_NumberFormatter_INCLUDED