2023-06-06 18:43:10 +03:00
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module time
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struct DateTimeParser {
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datetime string
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format string
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mut:
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current_pos_datetime int
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}
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fn new_date_time_parser(datetime string, format string) DateTimeParser {
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return DateTimeParser{
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datetime: datetime
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format: format
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}
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}
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fn (mut p DateTimeParser) next(length int) !string {
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if p.current_pos_datetime + length > p.datetime.len {
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return error('end of string')
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}
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val := p.datetime[p.current_pos_datetime..p.current_pos_datetime + length]
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p.current_pos_datetime += length
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return val
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}
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fn (mut p DateTimeParser) peek(length int) !string {
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if p.current_pos_datetime + length > p.datetime.len {
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return error('end of string')
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}
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return p.datetime[p.current_pos_datetime..p.current_pos_datetime + length]
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}
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fn (mut p DateTimeParser) must_be_int(length int) !int {
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2023-07-17 22:24:52 +03:00
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val := p.next(length)!
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if !val.contains_only('0123456789') {
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return error('expected int, found: ${val}')
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}
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2023-06-06 18:43:10 +03:00
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return val.int()
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}
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fn (mut p DateTimeParser) must_be_int_with_minimum_length(min int, max int, allow_leading_zero bool) !int {
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mut length := max + 1 - min
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mut val := ''
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for _ in 0 .. length {
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2023-07-17 22:24:52 +03:00
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tok := p.peek(1) or { break }
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if !tok.contains_only('0123456789') {
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2023-06-06 18:43:10 +03:00
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break
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}
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2023-07-17 22:24:52 +03:00
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p.next(1)!
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val += tok
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2023-06-06 18:43:10 +03:00
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}
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if val.len < min {
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return error('expected int with a minimum length of ${min}, found: ${val.len}')
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}
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if !allow_leading_zero && val.starts_with('0') {
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return error('0 is not allowed for this format')
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}
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return val.int()
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}
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fn (mut p DateTimeParser) must_be_single_int_with_optional_leading_zero() !int {
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2023-07-17 22:24:52 +03:00
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mut val := p.next(1)!
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2023-06-06 18:43:10 +03:00
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if val == '0' {
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2023-07-17 22:24:52 +03:00
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next := p.next(1) or { '' }
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if !next.contains_only('0123456789') {
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return error('expected int, found: ${next}')
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}
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val += next
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2023-06-06 18:43:10 +03:00
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}
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return val.int()
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}
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fn (mut p DateTimeParser) must_be_string(must string) ! {
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2023-07-17 22:24:52 +03:00
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val := p.next(must.len)!
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2023-06-06 18:43:10 +03:00
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if val != must {
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return error('invalid string: "${val}"!="${must}" at: ${p.current_pos_datetime}')
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}
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}
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fn (mut p DateTimeParser) must_be_string_one_of(oneof []string) !string {
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2023-07-17 22:24:52 +03:00
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for must in oneof {
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2023-06-06 18:43:10 +03:00
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val := p.peek(must.len) or { continue }
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if val == must {
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return must
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}
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}
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return error('invalid string: must be one of ${oneof}, at ${p.current_pos_datetime}')
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}
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fn (mut p DateTimeParser) must_be_valid_month() !int {
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2023-07-17 22:24:52 +03:00
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for v in long_months {
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2023-06-06 18:43:10 +03:00
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if p.current_pos_datetime + v.len < p.datetime.len {
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month_name := p.datetime[p.current_pos_datetime..p.current_pos_datetime + v.len]
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if v == month_name {
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p.current_pos_datetime += v.len
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return long_months.index(month_name) + 1
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}
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}
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}
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return error_invalid_time(0, 'invalid month name')
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}
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fn (mut p DateTimeParser) must_be_valid_week_day(letters int) !string {
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2023-07-17 22:24:52 +03:00
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val := p.next(letters)!
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for v in long_days {
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2023-06-06 18:43:10 +03:00
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if v[0..letters] == val {
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return v
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}
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}
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return error_invalid_time(0, 'invalid month name')
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}
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fn extract_tokens(s string) ![]string {
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mut tokens := []string{}
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mut current := ''
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for r in s {
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if current.contains_only(r.ascii_str()) || current == '' {
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current += r.ascii_str()
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} else {
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tokens << current
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current = r.ascii_str()
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}
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}
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if current != '' {
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tokens << current
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}
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return tokens
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}
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// parse_format parses the string `s`, as a custom `format`, containing the following specifiers:
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// YYYY - 4 digit year, 0000..9999
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// YY - 2 digit year, 00..99
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// M - month, 1..12
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// MM - month, 2 digits, 01..12
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// MMMM - name of month
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// D - day of the month, 1..31
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// DD - day of the month, 01..31
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// H - hour, 0..23
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// HH - hour, 00..23
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// h - hour, 0..23
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// hh - hour, 0..23
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// k - hour, 0..23
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// kk - hour, 0..23
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// m - minute, 0..59
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// mm - minute, 0..59
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// s - second, 0..59
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// ss - second, 0..59
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fn (mut p DateTimeParser) parse() !Time {
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mut year_ := 0
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mut month_ := 0
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mut day_in_month := 0
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mut hour_ := 0
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mut minute_ := 0
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mut second_ := 0
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tokens := extract_tokens(p.format) or {
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return error_invalid_time(0, 'malformed format string: ${err}')
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}
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2023-07-17 22:24:52 +03:00
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for token in tokens {
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2023-06-06 18:43:10 +03:00
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match token {
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'YYYY' {
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year_ = p.must_be_int(4) or {
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return error_invalid_time(0, 'end of string reached before the full year was specified')
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}
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}
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'YY' {
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2023-07-18 02:05:49 +03:00
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year_ = now().year / 100 * 100 + p.must_be_int(2) or {
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2023-06-06 18:43:10 +03:00
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return error_invalid_time(0, 'end of string reached before the full year was specified')
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}
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}
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'M' {
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month_ = p.must_be_int_with_minimum_length(1, 2, false) or {
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return error_invalid_time(0, 'end of string reached before the month was specified')
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}
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if month_ < 1 || month_ > 12 {
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return error_invalid_time(0, 'month must be between 1 and 12')
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}
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}
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'MM' {
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month_ = p.must_be_int(2) or {
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return error_invalid_time(0, 'end of string reached before the month was specified')
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}
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if month_ < 1 || month_ > 12 {
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return error_invalid_time(0, 'month must be between 01 and 12')
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}
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}
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'MMMM' {
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month_ = p.must_be_valid_month() or { return err }
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}
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'D' {
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day_in_month = p.must_be_int_with_minimum_length(1, 2, false) or {
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return error_invalid_time(0, 'end of string reached before the day was specified')
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}
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if day_in_month < 1 || day_in_month > 31 {
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return error_invalid_time(0, 'day must be between 1 and 31')
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}
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}
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'DD' {
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day_in_month = p.must_be_int(2) or {
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return error_invalid_time(0, 'end of string reached before the month was specified')
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}
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if day_in_month < 1 || day_in_month > 31 {
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return error_invalid_time(0, 'day must be between 01 and 31')
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}
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}
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'H' {
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hour_ = p.must_be_int_with_minimum_length(1, 2, false) or {
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return error_invalid_time(0, 'end of string reached before hours where specified')
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}
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if hour_ < 0 || hour_ > 23 {
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return error_invalid_time(0, 'hour must be between 0 and 23')
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}
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}
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'HH' {
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hour_ = p.must_be_int(2) or {
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return error_invalid_time(0, 'end of string reached before hours where specified')
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}
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if hour_ < 0 || hour_ > 23 {
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return error_invalid_time(0, 'hour must be between 00 and 23')
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}
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}
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'h' {
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hour_ = p.must_be_int_with_minimum_length(1, 2, false) or {
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return error_invalid_time(0, 'end of string reached before hours where specified')
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}
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if hour_ < 0 || hour_ > 23 {
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return error_invalid_time(0, 'hour must be between 0 and 23')
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}
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}
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'hh' {
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hour_ = p.must_be_int(2) or {
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return error_invalid_time(0, 'end of string reached before hours where specified')
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}
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if hour_ < 0 || hour_ > 23 {
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return error_invalid_time(0, 'hour must be between 00 and 23')
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}
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}
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'k' {
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hour_ = p.must_be_int(1) or {
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return error_invalid_time(0, 'end of string reached before hours where specified')
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}
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if hour_ < 0 || hour_ > 23 {
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return error_invalid_time(0, 'hour must be between 0 and 23')
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}
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}
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'kk' {
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hour_ = p.must_be_int(2) or {
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return error_invalid_time(0, 'end of string reached before hours where specified')
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}
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if hour_ < 0 || hour_ > 23 {
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return error_invalid_time(0, 'hour must be between 00 and 23')
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}
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}
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'm' {
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minute_ = p.must_be_int(1) or {
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return error_invalid_time(0, 'end of string reached before minutes where specified')
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}
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if minute_ < 0 || minute_ > 59 {
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return error_invalid_time(0, 'minute must be between 0 and 59')
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}
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}
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'mm' {
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minute_ = p.must_be_int(2) or {
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return error_invalid_time(0, 'end of string reached before minutes where specified')
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}
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if minute_ < 0 || minute_ > 59 {
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return error_invalid_time(0, 'minute must be between 00 and 59')
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}
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}
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's' {
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second_ = p.must_be_int(1) or {
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return error_invalid_time(0, 'end of string reached before seconds where specified')
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}
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if second_ < 0 || second_ > 59 {
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return error_invalid_time(0, 'second must be between 0 and 59')
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}
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}
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'ss' {
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second_ = p.must_be_int(2) or {
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return error_invalid_time(0, 'end of string reached before seconds where specified')
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}
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if second_ < 0 || second_ > 59 {
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return error_invalid_time(0, 'second must be between 00 and 59')
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}
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}
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else {
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p.must_be_string(token) or { return error_invalid_time(0, '${err}') }
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}
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}
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}
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return new_time(
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year: year_
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month: month_
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day: day_in_month
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hour: hour_
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minute: minute_
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second: second_
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)
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}
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