/* * Copyright (c) 2018-2020, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include namespace Core { DateTime DateTime::now() { return from_timestamp(time(nullptr)); } DateTime DateTime::create(int year, int month, int day, int hour, int minute, int second) { DateTime dt; dt.set_time(year, month, day, hour, minute, second); return dt; } DateTime DateTime::from_timestamp(time_t timestamp) { struct tm tm; localtime_r(×tamp, &tm); DateTime dt; dt.m_year = tm.tm_year + 1900; dt.m_month = tm.tm_mon + 1; dt.m_day = tm.tm_mday; dt.m_hour = tm.tm_hour; dt.m_minute = tm.tm_min; dt.m_second = tm.tm_sec; dt.m_timestamp = timestamp; return dt; } unsigned DateTime::weekday() const { return ::day_of_week(m_year, m_month, m_day); } unsigned DateTime::days_in_month() const { return ::days_in_month(m_year, m_month); } unsigned DateTime::day_of_year() const { return ::day_of_year(m_year, m_month, m_day); } bool DateTime::is_leap_year() const { return ::is_leap_year(m_year); } void DateTime::set_time(int year, int month, int day, int hour, int minute, int second) { struct tm tm = {}; tm.tm_sec = second; tm.tm_min = minute; tm.tm_hour = hour; tm.tm_mday = day; tm.tm_mon = month - 1; tm.tm_year = year - 1900; tm.tm_isdst = -1; // mktime() doesn't read tm.tm_wday and tm.tm_yday, no need to fill them in. m_timestamp = mktime(&tm); // mktime() normalizes the components to the right ranges (Jan 32 -> Feb 1 etc), so read fields back out from tm. m_year = tm.tm_year + 1900; m_month = tm.tm_mon + 1; m_day = tm.tm_mday; m_hour = tm.tm_hour; m_minute = tm.tm_min; m_second = tm.tm_sec; } DeprecatedString DateTime::to_deprecated_string(StringView format) const { struct tm tm; localtime_r(&m_timestamp, &tm); StringBuilder builder; int const format_len = format.length(); auto format_time_zone_offset = [&](bool with_separator) { struct tm gmt_tm; gmtime_r(&m_timestamp, &gmt_tm); gmt_tm.tm_isdst = -1; auto gmt_timestamp = mktime(&gmt_tm); auto offset_seconds = static_cast(difftime(m_timestamp, gmt_timestamp)); StringView offset_sign; if (offset_seconds >= 0) { offset_sign = "+"sv; } else { offset_sign = "-"sv; offset_seconds *= -1; } auto offset_hours = offset_seconds / 3600; auto offset_minutes = (offset_seconds % 3600) / 60; auto separator = with_separator ? ":"sv : ""sv; builder.appendff("{}{:02}{}{:02}", offset_sign, offset_hours, separator, offset_minutes); }; for (int i = 0; i < format_len; ++i) { if (format[i] != '%') { builder.append(format[i]); } else { if (++i == format_len) return DeprecatedString(); switch (format[i]) { case 'a': builder.append(short_day_names[tm.tm_wday]); break; case 'A': builder.append(long_day_names[tm.tm_wday]); break; case 'b': builder.append(short_month_names[tm.tm_mon]); break; case 'B': builder.append(long_month_names[tm.tm_mon]); break; case 'C': builder.appendff("{:02}", (tm.tm_year + 1900) / 100); break; case 'd': builder.appendff("{:02}", tm.tm_mday); break; case 'D': builder.appendff("{:02}/{:02}/{:02}", tm.tm_mon + 1, tm.tm_mday, (tm.tm_year + 1900) % 100); break; case 'e': builder.appendff("{:2}", tm.tm_mday); break; case 'h': builder.append(short_month_names[tm.tm_mon]); break; case 'H': builder.appendff("{:02}", tm.tm_hour); break; case 'I': { int display_hour = tm.tm_hour % 12; if (display_hour == 0) display_hour = 12; builder.appendff("{:02}", display_hour); break; } case 'j': builder.appendff("{:03}", tm.tm_yday + 1); break; case 'l': { int display_hour = tm.tm_hour % 12; if (display_hour == 0) display_hour = 12; builder.appendff("{:2}", display_hour); break; } case 'm': builder.appendff("{:02}", tm.tm_mon + 1); break; case 'M': builder.appendff("{:02}", tm.tm_min); break; case 'n': builder.append('\n'); break; case 'p': builder.append(tm.tm_hour < 12 ? "AM"sv : "PM"sv); break; case 'r': { int display_hour = tm.tm_hour % 12; if (display_hour == 0) display_hour = 12; builder.appendff("{:02}:{:02}:{:02} {}", display_hour, tm.tm_min, tm.tm_sec, tm.tm_hour < 12 ? "AM" : "PM"); break; } case 'R': builder.appendff("{:02}:{:02}", tm.tm_hour, tm.tm_min); break; case 'S': builder.appendff("{:02}", tm.tm_sec); break; case 't': builder.append('\t'); break; case 'T': builder.appendff("{:02}:{:02}:{:02}", tm.tm_hour, tm.tm_min, tm.tm_sec); break; case 'u': builder.appendff("{}", tm.tm_wday ? tm.tm_wday : 7); break; case 'U': { int const wday_of_year_beginning = (tm.tm_wday + 6 * tm.tm_yday) % 7; int const week_number = (tm.tm_yday + wday_of_year_beginning) / 7; builder.appendff("{:02}", week_number); break; } case 'V': { int const wday_of_year_beginning = (tm.tm_wday + 6 + 6 * tm.tm_yday) % 7; int week_number = (tm.tm_yday + wday_of_year_beginning) / 7 + 1; if (wday_of_year_beginning > 3) { if (tm.tm_yday >= 7 - wday_of_year_beginning) --week_number; else { int const days_of_last_year = days_in_year(tm.tm_year + 1900 - 1); int const wday_of_last_year_beginning = (wday_of_year_beginning + 6 * days_of_last_year) % 7; week_number = (days_of_last_year + wday_of_last_year_beginning) / 7 + 1; if (wday_of_last_year_beginning > 3) --week_number; } } builder.appendff("{:02}", week_number); break; } case 'w': builder.appendff("{}", tm.tm_wday); break; case 'W': { int const wday_of_year_beginning = (tm.tm_wday + 6 + 6 * tm.tm_yday) % 7; int const week_number = (tm.tm_yday + wday_of_year_beginning) / 7; builder.appendff("{:02}", week_number); break; } case 'y': builder.appendff("{:02}", (tm.tm_year + 1900) % 100); break; case 'Y': builder.appendff("{}", tm.tm_year + 1900); break; case 'z': format_time_zone_offset(false); break; case ':': if (++i == format_len) { builder.append("%:"sv); break; } if (format[i] != 'z') { builder.append("%:"sv); builder.append(format[i]); break; } format_time_zone_offset(true); break; case 'Z': { auto const* timezone_name = tzname[tm.tm_isdst == 0 ? 0 : 1]; builder.append({ timezone_name, strlen(timezone_name) }); break; } case '%': builder.append('%'); break; default: builder.append('%'); builder.append(format[i]); break; } } } return builder.to_deprecated_string(); } Optional DateTime::parse(StringView format, DeprecatedString const& string) { unsigned format_pos = 0; unsigned string_pos = 0; struct tm tm = {}; auto parsing_failed = false; auto tm_represents_utc_time = false; auto parse_number = [&] { if (string_pos >= string.length()) { parsing_failed = true; return 0; } char* end_ptr = nullptr; errno = 0; int number = strtol(string.characters() + string_pos, &end_ptr, 10); auto chars_parsed = end_ptr - (string.characters() + string_pos); if (chars_parsed == 0 || errno != 0) parsing_failed = true; else string_pos += chars_parsed; return number; }; auto consume = [&](char x) { if (string_pos >= string.length()) { parsing_failed = true; return; } if (string[string_pos] != x) parsing_failed = true; else string_pos++; }; while (format_pos < format.length() && string_pos < string.length()) { if (format[format_pos] != '%') { if (format[format_pos] != string[string_pos]) { return {}; } format_pos++; string_pos++; continue; } format_pos++; if (format_pos == format.length()) { return {}; } switch (format[format_pos]) { case 'a': { auto wday = 0; for (auto name : short_day_names) { if (string.substring_view(string_pos).starts_with(name, AK::CaseSensitivity::CaseInsensitive)) { string_pos += name.length(); tm.tm_wday = wday; break; } ++wday; } if (wday == 7) return {}; break; } case 'A': { auto wday = 0; for (auto name : long_day_names) { if (string.substring_view(string_pos).starts_with(name, AK::CaseSensitivity::CaseInsensitive)) { string_pos += name.length(); tm.tm_wday = wday; break; } ++wday; } if (wday == 7) return {}; break; } case 'h': case 'b': { auto mon = 0; for (auto name : short_month_names) { if (string.substring_view(string_pos).starts_with(name, AK::CaseSensitivity::CaseInsensitive)) { string_pos += name.length(); tm.tm_mon = mon; break; } ++mon; } if (mon == 12) return {}; break; } case 'B': { auto mon = 0; for (auto name : long_month_names) { if (string.substring_view(string_pos).starts_with(name, AK::CaseSensitivity::CaseInsensitive)) { string_pos += name.length(); tm.tm_mon = mon; break; } ++mon; } if (mon == 12) return {}; break; } case 'C': { int num = parse_number(); tm.tm_year = (num - 19) * 100; break; } case 'd': { tm.tm_mday = parse_number(); break; } case 'D': { int mon = parse_number(); consume('/'); int day = parse_number(); consume('/'); int year = parse_number(); tm.tm_mon = mon + 1; tm.tm_mday = day; tm.tm_year = (year + 1900) % 100; break; } case 'e': { tm.tm_mday = parse_number(); break; } case 'H': { tm.tm_hour = parse_number(); break; } case 'I': { int num = parse_number(); tm.tm_hour = num % 12; break; } case 'j': { // a little trickery here... we can get mktime() to figure out mon and mday using out of range values. // yday is not used so setting it is pointless. tm.tm_mday = parse_number(); tm.tm_mon = 0; mktime(&tm); break; } case 'm': { int num = parse_number(); tm.tm_mon = num - 1; break; } case 'M': { tm.tm_min = parse_number(); break; } case 'n': case 't': while (is_ascii_blank(string[string_pos])) { string_pos++; } break; case 'p': { auto ampm = string.substring_view(string_pos, 2); if (ampm == "PM" && tm.tm_hour < 12) { tm.tm_hour += 12; } string_pos += 2; break; } case 'r': { auto ampm = string.substring_view(string_pos, 2); if (ampm == "PM" && tm.tm_hour < 12) { tm.tm_hour += 12; } string_pos += 2; break; } case 'R': { tm.tm_hour = parse_number(); consume(':'); tm.tm_min = parse_number(); break; } case 'S': tm.tm_sec = parse_number(); break; case 'T': tm.tm_hour = parse_number(); consume(':'); tm.tm_min = parse_number(); consume(':'); tm.tm_sec = parse_number(); break; case 'w': tm.tm_wday = parse_number(); break; case 'y': { int year = parse_number(); tm.tm_year = year <= 99 && year > 69 ? 1900 + year : 2000 + year; break; } case 'Y': { int year = parse_number(); tm.tm_year = year - 1900; break; } case 'z': { tm_represents_utc_time = true; if (string[string_pos] == 'Z') { // UTC time string_pos++; break; } int sign; if (string[string_pos] == '+') sign = -1; else if (string[string_pos] == '-') sign = +1; else return {}; string_pos++; auto hours = parse_number(); int minutes; if (string_pos < string.length() && string[string_pos] == ':') { string_pos++; minutes = parse_number(); } else { minutes = hours % 100; hours = hours / 100; } tm.tm_hour += sign * hours; tm.tm_min += sign * minutes; break; } case '%': if (string[string_pos] != '%') { return {}; } string_pos += 1; break; default: parsing_failed = true; break; } if (parsing_failed) { return {}; } format_pos++; } if (string_pos != string.length() || format_pos != format.length()) { return {}; } // If an explicit timezone was present, the time in tm was shifted to UTC. // Convert it to local time, since that is what `mktime` expects. if (tm_represents_utc_time) { auto utc_time = timegm(&tm); localtime_r(&utc_time, &tm); } return DateTime::from_timestamp(mktime(&tm)); } }