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// This is a part of Chrono. // See README.md and LICENSE.txt for details. /*! `strftime`/`strptime`-inspired date and time formatting syntax. ## Specifiers The following specifiers are available both to formatting and parsing. | Spec. | Example | Description | |-------|----------|----------------------------------------------------------------------------| | | | **DATE SPECIFIERS:** | | `%Y` | `2001` | The full proleptic Gregorian year, zero-padded to 4 digits. [1] | | `%C` | `20` | The proleptic Gregorian year divided by 100, zero-padded to 2 digits. [2] | | `%y` | `01` | The proleptic Gregorian year modulo 100, zero-padded to 2 digits. [2] | | | | | | `%m` | `07` | Month number (01--12), zero-padded to 2 digits. | | `%b` | `Jul` | Abbreviated month name. Always 3 letters. | | `%B` | `July` | Full month name. Also accepts corresponding abbreviation in parsing. | | `%h` | `Jul` | Same to `%b`. | | | | | | `%d` | `08` | Day number (01--31), zero-padded to 2 digits. | | `%e` | ` 8` | Same to `%d` but space-padded. Same to `%_d`. | | | | | | `%a` | `Sun` | Abbreviated weekday name. Always 3 letters. | | `%A` | `Sunday` | Full weekday name. Also accepts corresponding abbreviation in parsing. | | `%w` | `0` | Sunday = 0, Monday = 1, ..., Saturday = 6. | | `%u` | `7` | Monday = 1, Tuesday = 2, ..., Sunday = 7. (ISO 8601) | | | | | | `%U` | `28` | Week number starting with Sunday (00--53), zero-padded to 2 digits. [3] | | `%W` | `27` | Same to `%U`, but week 1 starts with the first Monday in that year instead.| | | | | | `%G` | `2001` | Same to `%Y` but uses the year number in ISO 8601 week date. [4] | | `%g` | `01` | Same to `%y` but uses the year number in ISO 8601 week date. [4] | | `%V` | `27` | Same to `%U` but uses the week number in ISO 8601 week date (01--53). [4] | | | | | | `%j` | `189` | Day of the year (001--366), zero-padded to 3 digits. | | | | | | `%D` | `07/08/01` | Month-day-year format. Same to `%m/%d/%y`. | | `%x` | `07/08/01` | Same to `%D`. | | `%F` | `2001-07-08` | Year-month-day format (ISO 8601). Same to `%Y-%m-%d`. | | `%v` | ` 8-Jul-2001` | Day-month-year format. Same to `%e-%b-%Y`. | | | | | | | | **TIME SPECIFIERS:** | | `%H` | `00` | Hour number (00--23), zero-padded to 2 digits. | | `%k` | ` 0` | Same to `%H` but space-padded. Same to `%_H`. | | `%I` | `12` | Hour number in 12-hour clocks (01--12), zero-padded to 2 digits. | | `%l` | `12` | Same to `%I` but space-padded. Same to `%_I`. | | | | | | `%P` | `am` | `am` or `pm` in 12-hour clocks. | | `%p` | `AM` | `AM` or `PM` in 12-hour clocks. | | | | | | `%M` | `34` | Minute number (00--59), zero-padded to 2 digits. | | `%S` | `60` | Second number (00--60), zero-padded to 2 digits. [5] | | `%f` | `026490000` | The fractional seconds (in nanoseconds) since last whole second. [8] | | `%.f` | `.026490`| Similar to `.%f` but left-aligned. These all consume the leading dot. [8] | | `%.3f`| `.026` | Similar to `.%f` but left-aligned but fixed to a length of 3. [8] | | `%.6f`| `.026490` | Similar to `.%f` but left-aligned but fixed to a length of 6. [8] | | `%.9f`| `.026490000` | Similar to `.%f` but left-aligned but fixed to a length of 9. [8] | | `%3f` | `026` | Similar to `%.3f` but without the leading dot. [8] | | `%6f` | `026490` | Similar to `%.6f` but without the leading dot. [8] | | `%9f` | `026490000` | Similar to `%.9f` but without the leading dot. [8] | | | | | | `%R` | `00:34` | Hour-minute format. Same to `%H:%M`. | | `%T` | `00:34:60` | Hour-minute-second format. Same to `%H:%M:%S`. | | `%X` | `00:34:60` | Same to `%T`. | | `%r` | `12:34:60 AM` | Hour-minute-second format in 12-hour clocks. Same to `%I:%M:%S %p`. | | | | | | | | **TIME ZONE SPECIFIERS:** | | `%Z` | `ACST` | *Formatting only:* Local time zone name. | | `%z` | `+0930` | Offset from the local time to UTC (with UTC being `+0000`). | | `%:z` | `+09:30` | Same to `%z` but with a colon. | | `%#z` | `+09` | *Parsing only:* Same to `%z` but allows minutes to be missing or present. | | | | | | | | **DATE & TIME SPECIFIERS:** | |`%c`|`Sun Jul 8 00:34:60 2001`|`ctime` date & time format. Same to `%a %b %e %T %Y` sans `\n`.| | `%+` | `2001-07-08T00:34:60.026490+09:30` | ISO 8601 / RFC 3339 date & time format. [6] | | | | | | `%s` | `994518299` | UNIX timestamp, the number of seconds since 1970-01-01 00:00 UTC. [7] | | | | | | | | **SPECIAL SPECIFIERS:** | | `%t` | | Literal tab (`\t`). | | `%n` | | Literal newline (`\n`). | | `%%` | | Literal percent sign. | It is possible to override the default padding behavior of numeric specifiers `%?`. This is not allowed for other specifiers and will result in the `BAD_FORMAT` error. Modifier | Description -------- | ----------- `%-?` | Suppresses any padding including spaces and zeroes. (e.g. `%j` = `012`, `%-j` = `12`) `%_?` | Uses spaces as a padding. (e.g. `%j` = `012`, `%_j` = ` 12`) `%0?` | Uses zeroes as a padding. (e.g. `%e` = ` 9`, `%0e` = `09`) Notes: 1. `%Y`: Negative years are allowed in formatting but not in parsing. 2. `%C`, `%y`: This is floor division, so 100 BCE (year number -99) will print `-1` and `99` respectively. 3. `%U`: Week 1 starts with the first Sunday in that year. It is possible to have week 0 for days before the first Sunday. 4. `%G`, `%g`, `%V`: Week 1 is the first week with at least 4 days in that year. Week 0 does not exist, so this should be used with `%G` or `%g`. 5. `%S`: It accounts for leap seconds, so `60` is possible. 6. `%+`: Same to `%Y-%m-%dT%H:%M:%S%.f%:z`, i.e. 0, 3, 6 or 9 fractional digits for seconds and colons in the time zone offset. The typical `strftime` implementations have different (and locale-dependent) formats for this specifier. While Chrono's format for `%+` is far more stable, it is best to avoid this specifier if you want to control the exact output. 7. `%s`: This is not padded and can be negative. For the purpose of Chrono, it only accounts for non-leap seconds so it slightly differs from ISO C `strftime` behavior. 8. `%f`, `%.f`, `%.3f`, `%.6f`, `%.9f`, `%3f`, `%6f`, `%9f`: The default `%f` is right-aligned and always zero-padded to 9 digits for the compatibility with glibc and others, so it always counts the number of nanoseconds since the last whole second. E.g. 7ms after the last second will print `007000000`, and parsing `7000000` will yield the same. The variant `%.f` is left-aligned and print 0, 3, 6 or 9 fractional digits according to the precision. E.g. 70ms after the last second under `%.f` will print `.070` (note: not `.07`), and parsing `.07`, `.070000` etc. will yield the same. Note that they can print or read nothing if the fractional part is zero or the next character is not `.`. The variant `%.3f`, `%.6f` and `%.9f` are left-aligned and print 3, 6 or 9 fractional digits according to the number preceding `f`. E.g. 70ms after the last second under `%.3f` will print `.070` (note: not `.07`), and parsing `.07`, `.070000` etc. will yield the same. Note that they can read nothing if the fractional part is zero or the next character is not `.` however will print with the specified length. The variant `%3f`, `%6f` and `%9f` are left-aligned and print 3, 6 or 9 fractional digits according to the number preceding `f`, but without the leading dot. E.g. 70ms after the last second under `%3f` will print `070` (note: not `07`), and parsing `07`, `070000` etc. will yield the same. Note that they can read nothing if the fractional part is zero. */ use super::{Item, Numeric, Fixed, InternalFixed, InternalInternal, Pad}; /// Parsing iterator for `strftime`-like format strings. #[derive(Clone, Debug)] pub struct StrftimeItems<'a> { /// Remaining portion of the string. remainder: &'a str, /// If the current specifier is composed of multiple formatting items (e.g. `%+`), /// parser refers to the statically reconstructed slice of them. /// If `recons` is not empty they have to be returned earlier than the `remainder`. recons: &'static [Item<'static>], } impl<'a> StrftimeItems<'a> { /// Creates a new parsing iterator from the `strftime`-like format string. pub fn new(s: &'a str) -> StrftimeItems<'a> { static FMT_NONE: [Item<'static>; 0] = []; StrftimeItems { remainder: s, recons: &FMT_NONE } } } const HAVE_ALTERNATES: &'static str = "z"; impl<'a> Iterator for StrftimeItems<'a> { type Item = Item<'a>; fn next(&mut self) -> Option<Item<'a>> { // we have some reconstructed items to return if !self.recons.is_empty() { let item = self.recons[0].clone(); self.recons = &self.recons[1..]; return Some(item); } match self.remainder.chars().next() { // we are done None => None, // the next item is a specifier Some('%') => { self.remainder = &self.remainder[1..]; macro_rules! next { () => ( match self.remainder.chars().next() { Some(x) => { self.remainder = &self.remainder[x.len_utf8()..]; x }, None => return Some(Item::Error), // premature end of string } ) } let spec = next!(); let pad_override = match spec { '-' => Some(Pad::None), '0' => Some(Pad::Zero), '_' => Some(Pad::Space), _ => None, }; let is_alternate = spec == '#'; let spec = if pad_override.is_some() || is_alternate { next!() } else { spec }; if is_alternate && !HAVE_ALTERNATES.contains(spec) { return Some(Item::Error); } macro_rules! recons { [$head:expr, $($tail:expr),+] => ({ const RECONS: &'static [Item<'static>] = &[$($tail),+]; self.recons = RECONS; $head }) } let item = match spec { 'A' => fix!(LongWeekdayName), 'B' => fix!(LongMonthName), 'C' => num0!(YearDiv100), 'D' => recons![num0!(Month), lit!("/"), num0!(Day), lit!("/"), num0!(YearMod100)], 'F' => recons![num0!(Year), lit!("-"), num0!(Month), lit!("-"), num0!(Day)], 'G' => num0!(IsoYear), 'H' => num0!(Hour), 'I' => num0!(Hour12), 'M' => num0!(Minute), 'P' => fix!(LowerAmPm), 'R' => recons![num0!(Hour), lit!(":"), num0!(Minute)], 'S' => num0!(Second), 'T' => recons![num0!(Hour), lit!(":"), num0!(Minute), lit!(":"), num0!(Second)], 'U' => num0!(WeekFromSun), 'V' => num0!(IsoWeek), 'W' => num0!(WeekFromMon), 'X' => recons![num0!(Hour), lit!(":"), num0!(Minute), lit!(":"), num0!(Second)], 'Y' => num0!(Year), 'Z' => fix!(TimezoneName), 'a' => fix!(ShortWeekdayName), 'b' | 'h' => fix!(ShortMonthName), 'c' => recons![fix!(ShortWeekdayName), sp!(" "), fix!(ShortMonthName), sp!(" "), nums!(Day), sp!(" "), num0!(Hour), lit!(":"), num0!(Minute), lit!(":"), num0!(Second), sp!(" "), num0!(Year)], 'd' => num0!(Day), 'e' => nums!(Day), 'f' => num0!(Nanosecond), 'g' => num0!(IsoYearMod100), 'j' => num0!(Ordinal), 'k' => nums!(Hour), 'l' => nums!(Hour12), 'm' => num0!(Month), 'n' => sp!("\n"), 'p' => fix!(UpperAmPm), 'r' => recons![num0!(Hour12), lit!(":"), num0!(Minute), lit!(":"), num0!(Second), sp!(" "), fix!(UpperAmPm)], 's' => num!(Timestamp), 't' => sp!("\t"), 'u' => num!(WeekdayFromMon), 'v' => recons![nums!(Day), lit!("-"), fix!(ShortMonthName), lit!("-"), num0!(Year)], 'w' => num!(NumDaysFromSun), 'x' => recons![num0!(Month), lit!("/"), num0!(Day), lit!("/"), num0!(YearMod100)], 'y' => num0!(YearMod100), 'z' => if is_alternate { internal_fix!(TimezoneOffsetPermissive) } else { fix!(TimezoneOffset) }, '+' => fix!(RFC3339), ':' => match next!() { 'z' => fix!(TimezoneOffsetColon), _ => Item::Error, }, '.' => match next!() { '3' => match next!() { 'f' => fix!(Nanosecond3), _ => Item::Error, }, '6' => match next!() { 'f' => fix!(Nanosecond6), _ => Item::Error, }, '9' => match next!() { 'f' => fix!(Nanosecond9), _ => Item::Error, }, 'f' => fix!(Nanosecond), _ => Item::Error, }, '3' => match next!() { 'f' => internal_fix!(Nanosecond3NoDot), _ => Item::Error, }, '6' => match next!() { 'f' => internal_fix!(Nanosecond6NoDot), _ => Item::Error, }, '9' => match next!() { 'f' => internal_fix!(Nanosecond9NoDot), _ => Item::Error, }, '%' => lit!("%"), _ => Item::Error, // no such specifier }; // adjust `item` if we have any padding modifier if let Some(new_pad) = pad_override { match item { Item::Numeric(ref kind, _pad) if self.recons.is_empty() => Some(Item::Numeric(kind.clone(), new_pad)), _ => Some(Item::Error), // no reconstructed or non-numeric item allowed } } else { Some(item) } }, // the next item is space Some(c) if c.is_whitespace() => { // `%` is not a whitespace, so `c != '%'` is redundant let nextspec = self.remainder.find(|c: char| !c.is_whitespace()) .unwrap_or_else(|| self.remainder.len()); assert!(nextspec > 0); let item = sp!(&self.remainder[..nextspec]); self.remainder = &self.remainder[nextspec..]; Some(item) }, // the next item is literal _ => { let nextspec = self.remainder.find(|c: char| c.is_whitespace() || c == '%') .unwrap_or_else(|| self.remainder.len()); assert!(nextspec > 0); let item = lit!(&self.remainder[..nextspec]); self.remainder = &self.remainder[nextspec..]; Some(item) }, } } } #[cfg(test)] #[test] fn test_strftime_items() { fn parse_and_collect<'a>(s: &'a str) -> Vec<Item<'a>> { // map any error into `[Item::Error]`. useful for easy testing. let items = StrftimeItems::new(s); let items = items.map(|spec| if spec == Item::Error {None} else {Some(spec)}); items.collect::<Option<Vec<_>>>().unwrap_or(vec![Item::Error]) } assert_eq!(parse_and_collect(""), []); assert_eq!(parse_and_collect(" \t\n\r "), [sp!(" \t\n\r ")]); assert_eq!(parse_and_collect("hello?"), [lit!("hello?")]); assert_eq!(parse_and_collect("a b\t\nc"), [lit!("a"), sp!(" "), lit!("b"), sp!("\t\n"), lit!("c")]); assert_eq!(parse_and_collect("100%%"), [lit!("100"), lit!("%")]); assert_eq!(parse_and_collect("100%% ok"), [lit!("100"), lit!("%"), sp!(" "), lit!("ok")]); assert_eq!(parse_and_collect("%%PDF-1.0"), [lit!("%"), lit!("PDF-1.0")]); assert_eq!(parse_and_collect("%Y-%m-%d"), [num0!(Year), lit!("-"), num0!(Month), lit!("-"), num0!(Day)]); assert_eq!(parse_and_collect("[%F]"), parse_and_collect("[%Y-%m-%d]")); assert_eq!(parse_and_collect("%m %d"), [num0!(Month), sp!(" "), num0!(Day)]); assert_eq!(parse_and_collect("%"), [Item::Error]); assert_eq!(parse_and_collect("%%"), [lit!("%")]); assert_eq!(parse_and_collect("%%%"), [Item::Error]); assert_eq!(parse_and_collect("%%%%"), [lit!("%"), lit!("%")]); assert_eq!(parse_and_collect("foo%?"), [Item::Error]); assert_eq!(parse_and_collect("bar%42"), [Item::Error]); assert_eq!(parse_and_collect("quux% +"), [Item::Error]); assert_eq!(parse_and_collect("%.Z"), [Item::Error]); assert_eq!(parse_and_collect("%:Z"), [Item::Error]); assert_eq!(parse_and_collect("%-Z"), [Item::Error]); assert_eq!(parse_and_collect("%0Z"), [Item::Error]); assert_eq!(parse_and_collect("%_Z"), [Item::Error]); assert_eq!(parse_and_collect("%.j"), [Item::Error]); assert_eq!(parse_and_collect("%:j"), [Item::Error]); assert_eq!(parse_and_collect("%-j"), [num!(Ordinal)]); assert_eq!(parse_and_collect("%0j"), [num0!(Ordinal)]); assert_eq!(parse_and_collect("%_j"), [nums!(Ordinal)]); assert_eq!(parse_and_collect("%.e"), [Item::Error]); assert_eq!(parse_and_collect("%:e"), [Item::Error]); assert_eq!(parse_and_collect("%-e"), [num!(Day)]); assert_eq!(parse_and_collect("%0e"), [num0!(Day)]); assert_eq!(parse_and_collect("%_e"), [nums!(Day)]); assert_eq!(parse_and_collect("%z"), [fix!(TimezoneOffset)]); assert_eq!(parse_and_collect("%#z"), [internal_fix!(TimezoneOffsetPermissive)]); assert_eq!(parse_and_collect("%#m"), [Item::Error]); } #[cfg(test)] #[test] fn test_strftime_docs() { use {FixedOffset, TimeZone, Timelike}; let dt = FixedOffset::east(34200).ymd(2001, 7, 8).and_hms_nano(0, 34, 59, 1_026_490_708); // date specifiers assert_eq!(dt.format("%Y").to_string(), "2001"); assert_eq!(dt.format("%C").to_string(), "20"); assert_eq!(dt.format("%y").to_string(), "01"); assert_eq!(dt.format("%m").to_string(), "07"); assert_eq!(dt.format("%b").to_string(), "Jul"); assert_eq!(dt.format("%B").to_string(), "July"); assert_eq!(dt.format("%h").to_string(), "Jul"); assert_eq!(dt.format("%d").to_string(), "08"); assert_eq!(dt.format("%e").to_string(), " 8"); assert_eq!(dt.format("%e").to_string(), dt.format("%_d").to_string()); assert_eq!(dt.format("%a").to_string(), "Sun"); assert_eq!(dt.format("%A").to_string(), "Sunday"); assert_eq!(dt.format("%w").to_string(), "0"); assert_eq!(dt.format("%u").to_string(), "7"); assert_eq!(dt.format("%U").to_string(), "28"); assert_eq!(dt.format("%W").to_string(), "27"); assert_eq!(dt.format("%G").to_string(), "2001"); assert_eq!(dt.format("%g").to_string(), "01"); assert_eq!(dt.format("%V").to_string(), "27"); assert_eq!(dt.format("%j").to_string(), "189"); assert_eq!(dt.format("%D").to_string(), "07/08/01"); assert_eq!(dt.format("%x").to_string(), "07/08/01"); assert_eq!(dt.format("%F").to_string(), "2001-07-08"); assert_eq!(dt.format("%v").to_string(), " 8-Jul-2001"); // time specifiers assert_eq!(dt.format("%H").to_string(), "00"); assert_eq!(dt.format("%k").to_string(), " 0"); assert_eq!(dt.format("%k").to_string(), dt.format("%_H").to_string()); assert_eq!(dt.format("%I").to_string(), "12"); assert_eq!(dt.format("%l").to_string(), "12"); assert_eq!(dt.format("%l").to_string(), dt.format("%_I").to_string()); assert_eq!(dt.format("%P").to_string(), "am"); assert_eq!(dt.format("%p").to_string(), "AM"); assert_eq!(dt.format("%M").to_string(), "34"); assert_eq!(dt.format("%S").to_string(), "60"); assert_eq!(dt.format("%f").to_string(), "026490708"); assert_eq!(dt.format("%.f").to_string(), ".026490708"); assert_eq!(dt.with_nanosecond(1_026_490_000).unwrap().format("%.f").to_string(), ".026490"); assert_eq!(dt.format("%.3f").to_string(), ".026"); assert_eq!(dt.format("%.6f").to_string(), ".026490"); assert_eq!(dt.format("%.9f").to_string(), ".026490708"); assert_eq!(dt.format("%3f").to_string(), "026"); assert_eq!(dt.format("%6f").to_string(), "026490"); assert_eq!(dt.format("%9f").to_string(), "026490708"); assert_eq!(dt.format("%R").to_string(), "00:34"); assert_eq!(dt.format("%T").to_string(), "00:34:60"); assert_eq!(dt.format("%X").to_string(), "00:34:60"); assert_eq!(dt.format("%r").to_string(), "12:34:60 AM"); // time zone specifiers //assert_eq!(dt.format("%Z").to_string(), "ACST"); assert_eq!(dt.format("%z").to_string(), "+0930"); assert_eq!(dt.format("%:z").to_string(), "+09:30"); // date & time specifiers assert_eq!(dt.format("%c").to_string(), "Sun Jul 8 00:34:60 2001"); assert_eq!(dt.format("%+").to_string(), "2001-07-08T00:34:60.026490708+09:30"); assert_eq!(dt.with_nanosecond(1_026_490_000).unwrap().format("%+").to_string(), "2001-07-08T00:34:60.026490+09:30"); assert_eq!(dt.format("%s").to_string(), "994518299"); // special specifiers assert_eq!(dt.format("%t").to_string(), "\t"); assert_eq!(dt.format("%n").to_string(), "\n"); assert_eq!(dt.format("%%").to_string(), "%"); }