// ***************************************************************************** // * This file is part of the FreeFileSync project. It is distributed under * // * GNU General Public License: https://www.gnu.org/licenses/gpl-3.0 * // * Copyright (C) Zenju (zenju AT freefilesync DOT org) - All Rights Reserved * // ***************************************************************************** #ifndef TIME_H_8457092814324342453627 #define TIME_H_8457092814324342453627 #include #include "string_tools.h" namespace zen { struct TimeComp //replaces std::tm and SYSTEMTIME { int year = 0; // - int month = 0; //1-12 int day = 0; //1-31 int hour = 0; //0-23 int minute = 0; //0-59 int second = 0; //0-60 (including leap second) }; inline bool operator==(const TimeComp& lhs, const TimeComp& rhs) { return lhs.year == rhs.year && lhs.month == rhs.month && lhs.day == rhs.day && lhs.hour == rhs.hour && lhs.minute == rhs.minute && lhs.second == rhs.second; } inline bool operator!=(const TimeComp& lhs, const TimeComp& rhs) { return !(lhs == rhs); } TimeComp getLocalTime(time_t utc = std::time(nullptr)); //convert time_t (UTC) to local time components, returns TimeComp() on error time_t localToTimeT(const TimeComp& tc); //convert local time components to time_t (UTC), returns -1 on error TimeComp getUtcTime(time_t utc = std::time(nullptr)); //convert time_t (UTC) to UTC time components, returns TimeComp() on error time_t utcToTimeT(const TimeComp& tc); //convert UTC time components to time_t (UTC), returns -1 on error TimeComp getCompileTime(); //returns TimeComp() 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& tc = getLocalTime()); //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. 8/23/2001 const struct FormatTimeTag {} FORMAT_TIME = {}; //%X - locale dependent time representation: e.g. 2:55:02 PM const struct FormatDateTimeTag {} FORMAT_DATE_TIME = {}; //%c - locale dependent date and time: e.g. 8/23/2001 2:55:02 PM 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 //---------------------------------------------------------------------------------------------------------------------------------- /* example: parseTime("%Y-%m-%d %H:%M:%S", "2001-08-23 14:55:02"); parseTime(FORMAT_ISO_DATE_TIME, "2001-08-23 14:55:02"); */ template TimeComp parseTime(const String& format, const String2& str); //similar to ::strptime() //---------------------------------------------------------------------------------------------------------------------------------- //############################ implementation ############################## namespace impl { inline std::tm toClibTimeComponents(const TimeComp& tc) { assert(1 <= tc.month && tc.month <= 12 && 1 <= tc.day && tc.day <= 31 && 0 <= tc.hour && tc.hour <= 23 && 0 <= tc.minute && tc.minute <= 59 && 0 <= tc.second && tc.second <= 61); std::tm ctc = {}; ctc.tm_year = tc.year - 1900; //years since 1900 ctc.tm_mon = tc.month - 1; //0-11 ctc.tm_mday = tc.day; //1-31 ctc.tm_hour = tc.hour; //0-23 ctc.tm_min = tc.minute; //0-59 ctc.tm_sec = tc.second; //0-60 (including leap second) ctc.tm_isdst = -1; //> 0 if DST is active, == 0 if DST is not active, < 0 if the information is not available //ctc.tm_wday //ctc.tm_yday return ctc; } inline TimeComp toZenTimeComponents(const std::tm& ctc) { TimeComp tc; tc.year = ctc.tm_year + 1900; tc.month = ctc.tm_mon + 1; tc.day = ctc.tm_mday; tc.hour = ctc.tm_hour; tc.minute = ctc.tm_min; tc.second = ctc.tm_sec; return tc; } 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"; } }; //strftime() craziness on invalid input: // VS 2010: CRASH unless "_invalid_parameter_handler" is set: https://msdn.microsoft.com/en-us/library/ksazx244.aspx // GCC: returns 0, apparently no crash. Still, considering some clib maintainer's comments, we should expect the worst! inline size_t strftimeWrap_impl(char* buffer, size_t bufferSize, const char* format, const std::tm* timeptr) { return std::strftime(buffer, bufferSize, format, timeptr); } inline size_t strftimeWrap_impl(wchar_t* buffer, size_t bufferSize, const wchar_t* format, const std::tm* timeptr) { return std::wcsftime(buffer, bufferSize, format, timeptr); } /* inline bool isValid(const std::tm& t) { -> not enough! MSCRT has different limits than the C standard which even seem to change with different versions: _VALIDATE_RETURN((( timeptr->tm_sec >=0 ) && ( timeptr->tm_sec <= 59 ) ), EINVAL, FALSE) _VALIDATE_RETURN(( timeptr->tm_year >= -1900 ) && ( timeptr->tm_year <= 8099 ), EINVAL, FALSE) -> also std::mktime does *not* help here at all! auto inRange = [](int value, int minVal, int maxVal) { return minVal <= value && value <= maxVal; }; //http://www.cplusplus.com/reference/clibrary/ctime/tm/ return inRange(t.tm_sec, 0, 61) && inRange(t.tm_min, 0, 59) && inRange(t.tm_hour, 0, 23) && inRange(t.tm_mday, 1, 31) && inRange(t.tm_mon, 0, 11) && //tm_year inRange(t.tm_wday, 0, 6) && inRange(t.tm_yday, 0, 365); //tm_isdst }; */ template inline size_t strftimeWrap(CharType* buffer, size_t bufferSize, const CharType* format, const std::tm* timeptr) { return strftimeWrap_impl(buffer, bufferSize, format, timeptr); } struct UserDefinedFormatTag {}; struct PredefinedFormatTag {}; template inline String formatTime(const String2& format, const TimeComp& tc, UserDefinedFormatTag) //format as specified by "std::strftime", returns empty string on failure { std::tm ctc = toClibTimeComponents(tc); 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 GetCharTypeT buffer[256] = {}; const size_t charsWritten = strftimeWrap(buffer, 256, strBegin(format), &ctc); return String(buffer, charsWritten); } template inline String formatTime(FormatType, const TimeComp& tc, PredefinedFormatTag) { return formatTime(GetFormat().format(GetCharTypeT()), tc, UserDefinedFormatTag()); } } inline TimeComp getLocalTime(time_t utc) { if (utc == -1) //failure code from std::time(nullptr) return TimeComp(); std::tm ctc = {}; if (::localtime_r(&utc, &ctc) == nullptr) return TimeComp(); return impl::toZenTimeComponents(ctc); } inline TimeComp getUtcTime(time_t utc) { if (utc == -1) //failure code from std::time(nullptr) return TimeComp(); std::tm ctc = {}; if (::gmtime_r(&utc, &ctc) == nullptr) return TimeComp(); return impl::toZenTimeComponents(ctc); } inline time_t localToTimeT(const TimeComp& tc) //returns -1 on error { if (tc == TimeComp()) return -1; std::tm ctc = impl::toClibTimeComponents(tc); return std::mktime(&ctc); } inline time_t utcToTimeT(const TimeComp& tc) //returns -1 on error { if (tc == TimeComp()) return -1; std::tm ctc = impl::toClibTimeComponents(tc); ctc.tm_isdst = 0; //"Zero (0) to indicate that standard time is in effect" => unused by _mkgmtime, but take no chances return ::timegm(&ctc); } inline TimeComp getCompileTime() { //https://gcc.gnu.org/onlinedocs/cpp/Standard-Predefined-Macros.html char compileTime[] = __DATE__ " " __TIME__; //e.g. "Aug 1 2017 01:32:26" if (compileTime[4] == ' ') //day is space-padded, but %d expects zero-padding compileTime[4] = '0'; return parseTime("%b %d %Y %H:%M:%S", compileTime); } template inline String formatTime(const String2& format, const TimeComp& tc) { if (tc == TimeComp()) //failure code from getLocalTime() return String(); using FormatTag = std::conditional_t< std::is_same_v || std::is_same_v || std::is_same_v || std::is_same_v || std::is_same_v || std::is_same_v, impl::PredefinedFormatTag, impl::UserDefinedFormatTag>; return impl::formatTime(format, tc, FormatTag()); } namespace impl { template TimeComp parseTime(const String& format, const String2& str, UserDefinedFormatTag) { using CharType = GetCharTypeT; static_assert(std::is_same_v>); const CharType* itStr = strBegin(str); const CharType* const strLast = itStr + strLength(str); auto extractNumber = [&](int& result, size_t digitCount) -> bool { if (strLast - itStr < makeSigned(digitCount)) return false; if (std::any_of(itStr, itStr + digitCount, [](CharType c) { return !isDigit(c); })) return false; result = zen::stringTo(StringRef(itStr, itStr + digitCount)); itStr += digitCount; return true; }; TimeComp output; const CharType* itFmt = strBegin(format); const CharType* const fmtLast = itFmt + strLength(format); for (; itFmt != fmtLast; ++itFmt) { const CharType fmt = *itFmt; if (fmt == '%') { ++itFmt; if (itFmt == fmtLast) return TimeComp(); switch (*itFmt) { case 'Y': if (!extractNumber(output.year, 4)) return TimeComp(); break; case 'm': if (!extractNumber(output.month, 2)) return TimeComp(); break; case 'b': //abbreviated month name: Jan-Dec { if (strLast - itStr < 3) return TimeComp(); const char* months[] = { "jan", "feb", "mar", "apr", "may", "jun", "jul", "aug", "sep", "oct", "nov", "dec" }; auto itMonth = std::find_if(std::begin(months), std::end(months), [&](const char* name) { return asciiToLower(itStr[0]) == name[0] && asciiToLower(itStr[1]) == name[1] && asciiToLower(itStr[2]) == name[2]; }); if (itMonth == std::end(months)) return TimeComp(); output.month = 1 + static_cast(itMonth - std::begin(months)); itStr += 3; } break; case 'd': if (!extractNumber(output.day, 2)) return TimeComp(); break; case 'H': if (!extractNumber(output.hour, 2)) return TimeComp(); break; case 'M': if (!extractNumber(output.minute, 2)) return TimeComp(); break; case 'S': if (!extractNumber(output.second, 2)) return TimeComp(); break; default: return TimeComp(); } } else if (isWhiteSpace(fmt)) //single whitespace in format => skip 0..n whitespace chars { while (itStr != strLast && isWhiteSpace(*itStr)) ++itStr; } else { if (itStr == strLast || *itStr != fmt) return TimeComp(); ++itStr; } } if (itStr != strLast) return TimeComp(); return output; } template inline TimeComp parseTime(FormatType, const String& str, PredefinedFormatTag) { return parseTime(GetFormat().format(GetCharTypeT()), str, UserDefinedFormatTag()); } } template inline TimeComp parseTime(const String& format, const String2& str) { using FormatTag = std::conditional_t< std::is_same_v || std::is_same_v || std::is_same_v, impl::PredefinedFormatTag, impl::UserDefinedFormatTag>; return impl::parseTime(format, str, FormatTag()); } } #endif //TIME_H_8457092814324342453627