// Copyright (c) 2019-2023 Alexander Medvednikov. All rights reserved. // Use of this source code is governed by an MIT license // that can be found in the LICENSE file. module time import strings // format returns a date string in "YYYY-MM-DD HH:mm" format (24h). pub fn (t Time) format() string { return '${t.year:04d}-${t.month:02d}-${t.day:02d} ${t.hour:02d}:${t.minute:02d}' } // format_ss returns a date string in "YYYY-MM-DD HH:mm:ss" format (24h). pub fn (t Time) format_ss() string { return '${t.year:04d}-${t.month:02d}-${t.day:02d} ${t.hour:02d}:${t.minute:02d}:${t.second:02d}' } // format_ss_milli returns a date string in "YYYY-MM-DD HH:mm:ss.123" format (24h). pub fn (t Time) format_ss_milli() string { return '${t.year:04d}-${t.month:02d}-${t.day:02d} ${t.hour:02d}:${t.minute:02d}:${t.second:02d}.${(t.nanosecond / 1_000_000):03d}' } // format_ss_micro returns a date string in "YYYY-MM-DD HH:mm:ss.123456" format (24h). pub fn (t Time) format_ss_micro() string { return '${t.year:04d}-${t.month:02d}-${t.day:02d} ${t.hour:02d}:${t.minute:02d}:${t.second:02d}.${(t.nanosecond / 1_000):06d}' } // format_ss_nano returns a date string in "YYYY-MM-DD HH:mm:ss.123456789" format (24h). pub fn (t Time) format_ss_nano() string { return '${t.year:04d}-${t.month:02d}-${t.day:02d} ${t.hour:02d}:${t.minute:02d}:${t.second:02d}.${t.nanosecond:09d}' } // format_rfc3339 returns a date string in "YYYY-MM-DDTHH:mm:ss.123Z" format (24 hours, see https://www.rfc-editor.org/rfc/rfc3339.html) // RFC3339 is an Internet profile, based on the ISO 8601 standard for for representation of dates and times using the Gregorian calendar. // It is intended to improve consistency and interoperability, when representing and using date and time in Internet protocols. pub fn (t Time) format_rfc3339() string { u := t.local_to_utc() return '${u.year:04d}-${u.month:02d}-${u.day:02d}T${u.hour:02d}:${u.minute:02d}:${u.second:02d}.${(u.nanosecond / 1_000_000):03d}Z' } // format_rfc3339_nano returns a date string in "YYYY-MM-DDTHH:mm:ss.123456789Z" format (24 hours, see https://www.rfc-editor.org/rfc/rfc3339.html) pub fn (t Time) format_rfc3339_nano() string { u := t.local_to_utc() return '${u.year:04d}-${u.month:02d}-${u.day:02d}T${u.hour:02d}:${u.minute:02d}:${u.second:02d}.${(u.nanosecond):09d}Z' } // hhmm returns a date string in "HH:mm" format (24h). pub fn (t Time) hhmm() string { return '${t.hour:02d}:${t.minute:02d}' } // hhmmss returns a date string in "HH:mm:ss" format (24h). pub fn (t Time) hhmmss() string { return '${t.hour:02d}:${t.minute:02d}:${t.second:02d}' } // hhmm12 returns a date string in "hh:mm" format (12h). pub fn (t Time) hhmm12() string { return t.get_fmt_time_str(.hhmm12) } // ymmdd returns a date string in "YYYY-MM-DD" format. pub fn (t Time) ymmdd() string { return t.get_fmt_date_str(.hyphen, .yyyymmdd) } // ddmmy returns a date string in "DD.MM.YYYY" format. pub fn (t Time) ddmmy() string { return t.get_fmt_date_str(.dot, .ddmmyyyy) } // md returns a date string in "MMM D" format. pub fn (t Time) md() string { return t.get_fmt_date_str(.space, .mmmd) } // appends ordinal suffix to a number fn ordinal_suffix(n int) string { if n > 3 && n < 21 { return '${n}th' } match n % 10 { 1 { return '${n}st' } 2 { return '${n}nd' } 3 { return '${n}rd' } else { return '${n}th' } } } const ( tokens_2 = ['MM', 'Mo', 'DD', 'Do', 'YY', 'ss', 'kk', 'NN', 'mm', 'hh', 'HH', 'ii', 'ZZ', 'dd', 'Qo', 'QQ', 'wo', 'ww'] tokens_3 = ['MMM', 'DDD', 'ZZZ', 'ddd'] tokens_4 = ['MMMM', 'DDDD', 'DDDo', 'dddd', 'YYYY'] ) // custom_format returns a date with custom format // // | | Token | Output | // |-----------------:|:------|:---------------------------------------| // | **Month** | M | 1 2 ... 11 12 | // | | Mo | 1st 2nd ... 11th 12th | // | | MM | 01 02 ... 11 12 | // | | MMM | Jan Feb ... Nov Dec | // | | MMMM | January February ... November December | // | **Quarter** | Q | 1 2 3 4 | // | | QQ | 01 02 03 04 | // | | Qo | 1st 2nd 3rd 4th | // | **Day of Month** | D | 1 2 ... 30 31 | // | | Do | 1st 2nd ... 30th 31st | // | | DD | 01 02 ... 30 31 | // | **Day of Year** | DDD | 1 2 ... 364 365 | // | | DDDo | 1st 2nd ... 364th 365th | // | | DDDD | 001 002 ... 364 365 | // | **Day of Week** | d | 0 1 ... 5 6 (Sun-Sat) | // | | c | 1 2 ... 6 7 (Mon-Sun) | // | | dd | Su Mo ... Fr Sa | // | | ddd | Sun Mon ... Fri Sat | // | | dddd | Sunday Monday ... Friday Saturday | // | **Week of Year** | w | 1 2 ... 52 53 | // | | wo | 1st 2nd ... 52nd 53rd | // | | ww | 01 02 ... 52 53 | // | **Year** | YY | 70 71 ... 29 30 | // | | YYYY | 1970 1971 ... 2029 2030 | // | **Era** | N | BC AD | // | | NN | Before Christ, Anno Domini | // | **AM/PM** | A | AM PM | // | | a | am pm | // | **Hour** | H | 0 1 ... 22 23 | // | | HH | 00 01 ... 22 23 | // | | h | 1 2 ... 11 12 | // | | hh | 01 02 ... 11 12 | // | | i | 0 1 ... 11 12 1 ... 11 | // | | ii | 00 01 ... 11 12 01 ... 11 | // | | k | 1 2 ... 23 24 | // | | kk | 01 02 ... 23 24 | // | **Minute** | m | 0 1 ... 58 59 | // | | mm | 00 01 ... 58 59 | // | **Second** | s | 0 1 ... 58 59 | // | | ss | 00 01 ... 58 59 | // | **Offset** | Z | -7 -6 ... +5 +6 | // | | ZZ | -0700 -0600 ... +0500 +0600 | // | | ZZZ | -07:00 -06:00 ... +05:00 +06:00 | // // Usage: // ```v // println(time.now().custom_format('MMMM Mo YY N kk:mm:ss A')) // output like: January 1st 22 AD 13:45:33 PM // ``` pub fn (t Time) custom_format(s string) string { mut tokens := []string{} for i := 0; i < s.len; { for j := 4; j > 0; j-- { if i > s.len - j { continue } if j == 1 || (j == 2 && s[i..i + j] in time.tokens_2) || (j == 3 && s[i..i + j] in time.tokens_3) || (j == 4 && s[i..i + j] in time.tokens_4) { tokens << s[i..i + j] i += (j - 1) break } } i++ } mut sb := strings.new_builder(128) for token in tokens { match token { 'M' { sb.write_string(t.month.str()) } 'MM' { sb.write_string('${t.month:02}') } 'Mo' { sb.write_string(ordinal_suffix(t.month)) } 'MMM' { sb.write_string(long_months[t.month - 1][0..3]) } 'MMMM' { sb.write_string(long_months[t.month - 1]) } 'D' { sb.write_string(t.day.str()) } 'DD' { sb.write_string('${t.day:02}') } 'Do' { sb.write_string(ordinal_suffix(t.day)) } 'DDD' { sb.write_string((t.day + days_before[t.month - 1] + int(is_leap_year(t.year))).str()) } 'DDDD' { sb.write_string('${t.day + days_before[t.month - 1] + int(is_leap_year(t.year)):03}') } 'DDDo' { sb.write_string(ordinal_suffix(t.day + days_before[t.month - 1] + int(is_leap_year(t.year)))) } 'd' { sb.write_string(t.day_of_week().str()) } 'dd' { sb.write_string(long_days[t.day_of_week() - 1][0..2]) } 'ddd' { sb.write_string(long_days[t.day_of_week() - 1][0..3]) } 'dddd' { sb.write_string(long_days[t.day_of_week() - 1]) } 'YY' { sb.write_string(t.year.str()[2..4]) } 'YYYY' { sb.write_string(t.year.str()) } 'H' { sb.write_string(t.hour.str()) } 'HH' { sb.write_string('${t.hour:02}') } 'h' { h := (t.hour + 11) % 12 + 1 sb.write_string(h.str()) } 'hh' { h := (t.hour + 11) % 12 + 1 sb.write_string('${h:02}') } 'i' { h := if t.hour > 12 { t.hour - 12 } else { t.hour } sb.write_string(h.str()) } 'ii' { h := if t.hour > 12 { t.hour - 12 } else { t.hour } sb.write_string('${h:02}') } 'm' { sb.write_string(t.minute.str()) } 'mm' { sb.write_string('${t.minute:02}') } 's' { sb.write_string(t.second.str()) } 'ss' { sb.write_string('${t.second:02}') } 'k' { sb.write_string((t.hour + 1).str()) } 'kk' { sb.write_string('${(t.hour + 1):02}') } 'w' { sb.write_string('${mceil((t.day + days_before[t.month - 1] + int(is_leap_year(t.year))) / 7):.0}') } 'ww' { sb.write_string('${mceil((t.day + days_before[t.month - 1] + int(is_leap_year(t.year))) / 7):02.0}') } 'wo' { sb.write_string(ordinal_suffix(int(mceil((t.day + days_before[t.month - 1] + int(is_leap_year(t.year))) / 7)))) } 'Q' { sb.write_string('${(t.month % 4) + 1}') } 'QQ' { sb.write_string('${(t.month % 4) + 1:02}') } 'Qo' { sb.write_string(ordinal_suffix((t.month % 4) + 1)) } 'c' { sb.write_string('${t.day_of_week() + 1}') } 'N' { // TODO integrate BC sb.write_string('AD') } 'NN' { // TODO integrate Before Christ sb.write_string('Anno Domini') } 'Z' { mut hours := offset() / seconds_per_hour if hours >= 0 { sb.write_string('+${hours}') } else { hours = -hours sb.write_string('-${hours}') } } 'ZZ' { // TODO update if minute differs? mut hours := offset() / seconds_per_hour if hours >= 0 { sb.write_string('+${hours:02}00') } else { hours = -hours sb.write_string('-${hours:02}00') } } 'ZZZ' { // TODO update if minute differs? mut hours := offset() / seconds_per_hour if hours >= 0 { sb.write_string('+${hours:02}:00') } else { hours = -hours sb.write_string('-${hours:02}:00') } } 'a' { if t.hour < 12 { sb.write_string('am') } else { sb.write_string('pm') } } 'A' { if t.hour < 12 { sb.write_string('AM') } else { sb.write_string('PM') } } else { sb.write_string(token) } } } return sb.str() } // clean returns a date string in a following format: // - a date string in "HH:mm" format (24h) for current day // - a date string in "MMM D HH:mm" format (24h) for date of current year // - a date string formatted with format function for other dates pub fn (t Time) clean() string { znow := now() // Today if t.month == znow.month && t.year == znow.year && t.day == znow.day { return t.get_fmt_time_str(.hhmm24) } // This year if t.year == znow.year { return t.get_fmt_str(.space, .hhmm24, .mmmd) } return t.format() } // clean12 returns a date string in a following format: // - a date string in "hh:mm" format (12h) for current day // - a date string in "MMM D hh:mm" format (12h) for date of current year // - a date string formatted with format function for other dates pub fn (t Time) clean12() string { znow := now() // Today if t.month == znow.month && t.year == znow.year && t.day == znow.day { return t.get_fmt_time_str(.hhmm12) } // This year if t.year == znow.year { return t.get_fmt_str(.space, .hhmm12, .mmmd) } return t.format() } // get_fmt_time_str returns a date string with specified FormatTime type. pub fn (t Time) get_fmt_time_str(fmt_time FormatTime) string { if fmt_time == .no_time { return '' } tp := if t.hour > 11 { 'p.m.' } else { 'a.m.' } hour_ := if t.hour > 12 { t.hour - 12 } else if t.hour == 0 { 12 } else { t.hour } return match fmt_time { .hhmm12 { '${hour_}:${t.minute:02d} ${tp}' } .hhmm24 { '${t.hour:02d}:${t.minute:02d}' } .hhmmss12 { '${hour_}:${t.minute:02d}:${t.second:02d} ${tp}' } .hhmmss24 { '${t.hour:02d}:${t.minute:02d}:${t.second:02d}' } .hhmmss24_milli { '${t.hour:02d}:${t.minute:02d}:${t.second:02d}.${(t.nanosecond / 1_000_000):03d}' } .hhmmss24_micro { '${t.hour:02d}:${t.minute:02d}:${t.second:02d}.${(t.nanosecond / 1_000):06d}' } .hhmmss24_nano { '${t.hour:02d}:${t.minute:02d}:${t.second:02d}.${t.nanosecond:06d}' } else { 'unknown enumeration ${fmt_time}' } } } // get_fmt_time_str returns a date string with specified // FormatDelimiter and FormatDate type. pub fn (t Time) get_fmt_date_str(fmt_dlmtr FormatDelimiter, fmt_date FormatDate) string { if fmt_date == .no_date { return '' } month := t.smonth() year := '${(t.year % 100):02d}' mut res := match fmt_date { .ddmmyy { '${t.day:02d}|${t.month:02d}|${year}' } .ddmmyyyy { '${t.day:02d}|${t.month:02d}|${t.year:04d}' } .mmddyy { '${t.month:02d}|${t.day:02d}|${year}' } .mmddyyyy { '${t.month:02d}|${t.day:02d}|${t.year:04d}' } .mmmd { '${month}|${t.day}' } .mmmdd { '${month}|${t.day:02d}' } .mmmddyy { '${month}|${t.day:02d}|${year}' } .mmmddyyyy { '${month}|${t.day:02d}|${t.year:04d}' } .yyyymmdd { '${t.year:04d}|${t.month:02d}|${t.day:02d}' } .yymmdd { '${year}|${t.month:02d}|${t.day:02d}' } else { 'unknown enumeration ${fmt_date}' } } del := match fmt_dlmtr { .dot { '.' } .hyphen { '-' } .slash { '/' } .space { ' ' } .no_delimiter { '' } } res = res.replace('|', del) return res } // get_fmt_str returns a date string with specified FormatDelimiter, // FormatTime type, and FormatDate type. pub fn (t Time) get_fmt_str(fmt_dlmtr FormatDelimiter, fmt_time FormatTime, fmt_date FormatDate) string { if fmt_date == .no_date { if fmt_time == .no_time { // saving one function call although it's checked in // t.get_fmt_time_str(fmt_time) in the beginning return '' } else { return t.get_fmt_time_str(fmt_time) } } else { if fmt_time != .no_time { dstr := t.get_fmt_date_str(fmt_dlmtr, fmt_date) tstr := t.get_fmt_time_str(fmt_time) return '${dstr} ${tstr}' } else { return t.get_fmt_date_str(fmt_dlmtr, fmt_date) } } } // This is just a TEMPORARY function for cookies and their expire dates pub fn (t Time) utc_string() string { day_str := t.weekday_str() month_str := t.smonth() utc_string := '${day_str}, ${t.day} ${month_str} ${t.year} ${t.hour:02d}:${t.minute:02d}:${t.second:02d} UTC' return utc_string } // mceil returns the least integer value greater than or equal to x. fn mceil(x f64) f64 { if x > 0 { return 1 + int(x) } if x < 0 { return -int(-x) } return 0 }