// ************************************************************************** // * This file is part of the zenXML project. It is distributed under the * // * Boost Software License, Version 1.0. See accompanying file * // * LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt. * // * Copyright (C) ZenJu (zhnmju123 AT gmx DOT de) - All Rights Reserved * // ************************************************************************** #ifndef ZEN_TIME_HEADER_845709281432434 #define ZEN_TIME_HEADER_845709281432434 #include #include "string_tools.h" namespace zen { struct TimeComp //replaces "struct std::tm" and SYSTEMTIME { TimeComp() : year(0), month(0), day(0), hour(0), minute(0), second(0) {} int year; // - int month; //1-12 int day; //1-31 int hour; //0-23 int minute; //0-59 int second; //0-61 }; TimeComp localTime (time_t utc = std::time(NULL)); //convert time_t (UTC) to local time components time_t localToTimeT(const TimeComp& comp); //convert local time components to time_t (UTC), returns -1 on error //---------------------------------------------------------------------------------------------------------------------------------- /* format (current) date and time; example: formatTime(L"%Y*%m*%d"); -> "2011*10*29" formatTime(FORMAT_DATE); -> "2011-10-29" formatTime(FORMAT_TIME); -> "17:55:34" */ template String formatTime(const String2& format, const TimeComp& comp = localTime()); //format as specified by "std::strftime", returns empty string on failure //the "format" parameter of formatTime() is partially specialized with the following type tags: const struct FormatDateTag {} FORMAT_DATE = {}; //%x - locale dependent date representation: e.g. 08/23/01 const struct FormatTimeTag {} FORMAT_TIME = {}; //%X - locale dependent time representation: e.g. 14:55:02 const struct FormatDateTimeTag {} FORMAT_DATE_TIME = {}; //%c - locale dependent date and time: e.g. Thu Aug 23 14:55:02 2001 const struct FormatIsoDateTag {} FORMAT_ISO_DATE = {}; //%Y-%m-%d - e.g. 2001-08-23 const struct FormatIsoTimeTag {} FORMAT_ISO_TIME = {}; //%H:%M:%S - e.g. 14:55:02 const struct FormatIsoDateTimeTag {} FORMAT_ISO_DATE_TIME = {}; //%Y-%m-%d %H:%M:%S - e.g. 2001-08-23 14:55:02 //---------------------------------------------------------------------------------------------------------------------------------- template bool parseTime(const String& format, const String& str, TimeComp& comp); //similar to ::strptime(), return true on success //############################ implementation ############################## namespace implementation { inline struct std::tm toClibTimeComponents(const TimeComp& comp) { struct std::tm ctc = {}; ctc.tm_year = comp.year - 1900; //years since 1900 ctc.tm_mon = comp.month - 1; //0-11 ctc.tm_mday = comp.day; //1-31 ctc.tm_hour = comp.hour; //0-23 ctc.tm_min = comp.minute; //0-59 ctc.tm_sec = comp.second; //0-61 ctc.tm_isdst = -1; //> 0 if DST is active, == 0 if DST is not active, < 0 if the information is not available return ctc; } inline TimeComp toZenTimeComponents(const struct std::tm& ctc) { TimeComp comp; comp.year = ctc.tm_year + 1900; comp.month = ctc.tm_mon + 1; comp.day = ctc.tm_mday; comp.hour = ctc.tm_hour; comp.minute = ctc.tm_min; comp.second = ctc.tm_sec; return comp; } template struct GetFormat; //get default time formats as char* or wchar_t* template <> struct GetFormat //%x - locale dependent date representation: e.g. 08/23/01 { const char* format(char) const { return "%x"; } const wchar_t* format(wchar_t) const { return L"%x"; } }; template <> struct GetFormat //%X - locale dependent time representation: e.g. 14:55:02 { const char* format(char) const { return "%X"; } const wchar_t* format(wchar_t) const { return L"%X"; } }; template <> struct GetFormat //%c - locale dependent date and time: e.g. Thu Aug 23 14:55:02 2001 { const char* format(char) const { return "%c"; } const wchar_t* format(wchar_t) const { return L"%c"; } }; template <> struct GetFormat //%Y-%m-%d - e.g. 2001-08-23 { const char* format(char) const { return "%Y-%m-%d"; } const wchar_t* format(wchar_t) const { return L"%Y-%m-%d"; } }; template <> struct GetFormat //%H:%M:%S - e.g. 14:55:02 { const char* format(char) const { return "%H:%M:%S"; } const wchar_t* format(wchar_t) const { return L"%H:%M:%S"; } }; template <> struct GetFormat //%Y-%m-%d %H:%M:%S - e.g. 2001-08-23 14:55:02 { const char* format(char) const { return "%Y-%m-%d %H:%M:%S"; } const wchar_t* format(wchar_t) const { return L"%Y-%m-%d %H:%M:%S"; } }; inline size_t strftimeWrap(char* buffer, size_t bufferSize, const char* format, const struct std::tm* timeptr) { return std::strftime(buffer, bufferSize, format, timeptr); } inline size_t strftimeWrap(wchar_t* buffer, size_t bufferSize, const wchar_t* format, const struct std::tm* timeptr) { return std::wcsftime(buffer, bufferSize, format, timeptr); } struct UserDefinedFormatTag {}; struct PredefinedFormatTag {}; template inline String formatTime(const String2& format, const TimeComp& comp, UserDefinedFormatTag) //format as specified by "std::strftime", returns empty string on failure { typedef typename GetCharType::Result CharType; struct std::tm ctc = toClibTimeComponents(comp); std::mktime (&ctc); // unfortunately std::strftime() needs all elements of "struct tm" filled, e.g. tm_wday, tm_yday //note: although std::mktime() explicitly expects "local time", calculating weekday and day of year *should* be time-zone and DST independent CharType buffer[256]; const size_t charsWritten = strftimeWrap(buffer, 256, strBegin(format), &ctc); return String(buffer, charsWritten); } template inline String formatTime(FormatType, const TimeComp& comp, PredefinedFormatTag) { typedef typename GetCharType::Result CharType; return formatTime(GetFormat().format(CharType()), comp, UserDefinedFormatTag()); } } inline TimeComp localTime(time_t utc) { return implementation::toZenTimeComponents(*std::localtime (&utc)); } inline time_t localToTimeT(const TimeComp& comp) //returns -1 on error { struct std::tm ctc = implementation::toClibTimeComponents(comp); return std::mktime(&ctc); } template inline String formatTime(const String2& format, const TimeComp& comp) { typedef typename SelectIf< IsSameType::result || IsSameType::result || IsSameType::result || IsSameType::result || IsSameType::result || IsSameType::result, implementation::PredefinedFormatTag, implementation::UserDefinedFormatTag>::Result FormatTag; return implementation::formatTime(format, comp, FormatTag()); } template bool parseTime(const String& format, const String& str, TimeComp& comp) //return true on success { typedef typename GetCharType::Result CharType; const CharType* iterFmt = strBegin(format); const CharType* const fmtLast = iterFmt + strLength(format); const CharType* iterStr = strBegin(str); const CharType* const strLast = iterStr + strLength(str); auto extractNumber = [&](int& result, size_t digitCount) -> bool { if (strLast - iterStr < digitCount) return false; if (std::find_if(iterStr, iterStr + digitCount, [](CharType c) { return !cStringIsDigit(c); }) != str.end()) return false; result = zen::toNumber(StringProxy(iterStr, digitCount)); iterStr += digitCount; return true; }; for (; iterFmt != fmtLast; ++iterFmt) { const CharType fmt = *iterFmt; if (fmt == '%') { ++iterFmt; if (iterFmt == fmtLast) return false; switch (*iterFmt) { case 'Y': if (!extractNumber(comp.year, 4)) return false; break; case 'm': if (!extractNumber(comp.month, 2)) return false; break; case 'd': if (!extractNumber(comp.day, 2)) return false; break; case 'H': if (!extractNumber(comp.hour, 2)) return false; break; case 'M': if (!extractNumber(comp.minute, 2)) return false; break; case 'S': if (!extractNumber(comp.second, 2)) return false; break; default: return false; } } else if (cStringIsWhiteSpace(fmt)) //single whitespace in format => skip 0..n whitespace chars { while (iterStr != strLast && cStringIsWhiteSpace(*iterStr)) ++iterStr; } else { if (iterStr == strLast || *iterStr != fmt) return false; ++iterStr; } } return iterStr == strLast; } } #endif //ZEN_TIME_HEADER_845709281432434