chrono/src/date.rs

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// This is a part of rust-chrono.
// Copyright (c) 2014, Kang Seonghoon.
// See README.md and LICENSE.txt for details.
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/*!
* ISO 8601 calendar date.
*/
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use std::{fmt, num, hash};
use num::Integer;
use duration::Duration;
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use offset::{Offset, UTC};
use time::NaiveTime;
use datetime::{NaiveDateTime, DateTime};
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use self::internals::{DateImpl, Of, Mdf, YearFlags};
static MAX_YEAR: i32 = internals::MAX_YEAR as i32;
static MIN_YEAR: i32 = internals::MIN_YEAR as i32;
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/// The day of week (DOW).
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///
/// The order of the days of week depends on the context.
/// One should prefer `*_from_monday` or `*_from_sunday` methods to get the correct result.
#[deriving(PartialEq, Eq, Clone, FromPrimitive, Show)]
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pub enum Weekday {
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/// Monday.
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Mon = 0,
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/// Tuesday.
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Tue = 1,
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/// Wednesday.
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Wed = 2,
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/// Thursday.
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Thu = 3,
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/// Friday.
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Fri = 4,
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/// Saturday.
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Sat = 5,
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/// Sunday.
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Sun = 6,
}
impl Weekday {
/// The next day in the week.
#[inline]
pub fn succ(&self) -> Weekday {
match *self {
Mon => Tue,
Tue => Wed,
Wed => Thu,
Thu => Fri,
Fri => Sat,
Sat => Sun,
Sun => Mon,
}
}
/// The previous day in the week.
#[inline]
pub fn pred(&self) -> Weekday {
match *self {
Mon => Sun,
Tue => Mon,
Wed => Tue,
Thu => Wed,
Fri => Thu,
Sat => Fri,
Sun => Sat,
}
}
/// Returns a DOW number starting from Monday = 1. (ISO 8601 weekday number)
#[inline]
pub fn number_from_monday(&self) -> u32 {
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match *self {
Mon => 1,
Tue => 2,
Wed => 3,
Thu => 4,
Fri => 5,
Sat => 6,
Sun => 7,
}
}
/// Returns a DOW number starting from Sunday = 1.
#[inline]
pub fn number_from_sunday(&self) -> u32 {
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match *self {
Mon => 2,
Tue => 3,
Wed => 4,
Thu => 5,
Fri => 6,
Sat => 7,
Sun => 1,
}
}
/// Returns a DOW number starting from Monday = 0.
#[inline]
pub fn num_days_from_monday(&self) -> u32 {
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match *self {
Mon => 0,
Tue => 1,
Wed => 2,
Thu => 3,
Fri => 4,
Sat => 5,
Sun => 6,
}
}
/// Returns a DOW number starting from Sunday = 0.
#[inline]
pub fn num_days_from_sunday(&self) -> u32 {
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match *self {
Mon => 1,
Tue => 2,
Wed => 3,
Thu => 4,
Fri => 5,
Sat => 6,
Sun => 0,
}
}
}
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/// The common set of methods for date component.
pub trait Datelike {
/// Returns the year number.
fn year(&self) -> i32;
/// Returns the absolute year number starting from 1 with a boolean flag,
/// which is false when the year predates the epoch (BCE/BC) and true otherwise (CE/AD).
#[inline]
fn year_ce(&self) -> (bool, u32) {
let year = self.year();
if year < 1 {
(false, (1 - year) as u32)
} else {
(true, year as u32)
}
}
/// Returns the month number starting from 1.
fn month(&self) -> u32;
/// Returns the month number starting from 0.
fn month0(&self) -> u32;
/// Returns the day of month starting from 1.
fn day(&self) -> u32;
/// Returns the day of month starting from 0.
fn day0(&self) -> u32;
/// Returns the day of year starting from 1.
fn ordinal(&self) -> u32;
/// Returns the day of year starting from 0.
fn ordinal0(&self) -> u32;
/// Returns the day of week.
fn weekday(&self) -> Weekday;
/// Returns the ISO week date: an adjusted year, week number and day of week.
/// The adjusted year may differ from that of the calendar date.
fn isoweekdate(&self) -> (i32, u32, Weekday);
/// Makes a new value with the year number changed.
///
/// Returns `None` when the resulting value would be invalid.
fn with_year(&self, year: i32) -> Option<Self>;
/// Makes a new value with the month number (starting from 1) changed.
///
/// Returns `None` when the resulting value would be invalid.
fn with_month(&self, month: u32) -> Option<Self>;
/// Makes a new value with the month number (starting from 0) changed.
///
/// Returns `None` when the resulting value would be invalid.
fn with_month0(&self, month0: u32) -> Option<Self>;
/// Makes a new value with the day of month (starting from 1) changed.
///
/// Returns `None` when the resulting value would be invalid.
fn with_day(&self, day: u32) -> Option<Self>;
/// Makes a new value with the day of month (starting from 0) changed.
///
/// Returns `None` when the resulting value would be invalid.
fn with_day0(&self, day0: u32) -> Option<Self>;
/// Makes a new value with the day of year (starting from 1) changed.
///
/// Returns `None` when the resulting value would be invalid.
fn with_ordinal(&self, ordinal: u32) -> Option<Self>;
/// Makes a new value with the day of year (starting from 0) changed.
///
/// Returns `None` when the resulting value would be invalid.
fn with_ordinal0(&self, ordinal0: u32) -> Option<Self>;
/// Returns the number of days since January 1, 1 (Day 1) in the proleptic Gregorian calendar.
fn num_days_from_ce(&self) -> i32 {
// we know this wouldn't overflow since year is limited to 1/2^13 of i32's full range.
let mut year = self.year() - 1;
let mut ndays = 0;
if year < 0 {
let excess = 1 + (-year) / 400;
year += excess * 400;
ndays -= excess * 146097;
}
let div_100 = year / 100;
ndays += ((year * 1461) >> 2) - div_100 + (div_100 >> 2);
ndays + self.ordinal() as i32
}
}
/// ISO 8601 calendar date without timezone.
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/// Allows for every proleptic Gregorian date from Jan 1, 262145 BCE to Dec 31, 262143 CE.
/// Also supports the conversion from ISO 8601 ordinal and week date.
#[deriving(PartialEq, Eq, PartialOrd, Ord, Clone, Hash)]
pub struct NaiveDate {
ymdf: DateImpl, // (year << 13) | of
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}
/// The minimum possible `NaiveDate`.
pub static MIN_NAIVE: NaiveDate = NaiveDate { ymdf: (MIN_YEAR << 13) | (1 << 4) | 0o07 /*FE*/ };
/// The maximum possible `NaiveDate`.
pub static MAX_NAIVE: NaiveDate = NaiveDate { ymdf: (MAX_YEAR << 13) | (365 << 4) | 0o17 /*F*/ };
// as it is hard to verify year flags in `MIN` and `MAX`, we use a separate run-time test.
#[test]
fn test_datez_bounds() {
let calculated_min = NaiveDate::from_ymd(MIN_YEAR, 1, 1);
let calculated_max = NaiveDate::from_ymd(MAX_YEAR, 12, 31);
assert!(MIN_NAIVE == calculated_min,
"`MIN_NAIVE` should have a year flag {}", calculated_min.of().flags());
assert!(MAX_NAIVE == calculated_max,
"`MAX_NAIVE` should have a year flag {}", calculated_max.of().flags());
}
impl NaiveDate {
/// Makes a new `NaiveDate` from year and packed ordinal-flags, with a verification.
fn from_of(year: i32, of: Of) -> Option<NaiveDate> {
if year >= MIN_YEAR && year <= MAX_YEAR && of.valid() {
let Of(of) = of;
Some(NaiveDate { ymdf: ((year << 13) as DateImpl) | (of as DateImpl) })
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} else {
None
}
}
/// Makes a new `NaiveDate` from year and packed month-day-flags, with a verification.
fn from_mdf(year: i32, mdf: Mdf) -> Option<NaiveDate> {
NaiveDate::from_of(year, mdf.to_of())
}
/// Makes a new `NaiveDate` from year, month and day.
/// This assumes the proleptic Gregorian calendar, with the year 0 being 1 BCE.
///
/// Fails on the out-of-range date, invalid month and/or day.
pub fn from_ymd(year: i32, month: u32, day: u32) -> NaiveDate {
NaiveDate::from_ymd_opt(year, month, day).expect("invalid or out-of-range date")
}
/// Makes a new `NaiveDate` from year, month and day.
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/// This assumes the proleptic Gregorian calendar, with the year 0 being 1 BCE.
///
/// Returns `None` on the out-of-range date, invalid month and/or day.
pub fn from_ymd_opt(year: i32, month: u32, day: u32) -> Option<NaiveDate> {
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let flags = YearFlags::from_year(year);
NaiveDate::from_mdf(year, Mdf::new(month, day, flags))
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}
/// Makes a new `NaiveDate` from year and day of year (DOY or "ordinal").
/// This assumes the proleptic Gregorian calendar, with the year 0 being 1 BCE.
///
/// Fails on the out-of-range date and/or invalid DOY.
pub fn from_yo(year: i32, ordinal: u32) -> NaiveDate {
NaiveDate::from_yo_opt(year, ordinal).expect("invalid or out-of-range date")
}
/// Makes a new `NaiveDate` from year and day of year (DOY or "ordinal").
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/// This assumes the proleptic Gregorian calendar, with the year 0 being 1 BCE.
///
/// Returns `None` on the out-of-range date and/or invalid DOY.
pub fn from_yo_opt(year: i32, ordinal: u32) -> Option<NaiveDate> {
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let flags = YearFlags::from_year(year);
NaiveDate::from_of(year, Of::new(ordinal, flags))
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}
/// Makes a new `NaiveDate` from ISO week date (year and week number) and day of the week (DOW).
/// This assumes the proleptic Gregorian calendar, with the year 0 being 1 BCE.
/// The resulting `NaiveDate` may have a different year from the input year.
///
/// Fails on the out-of-range date and/or invalid week number.
pub fn from_isoywd(year: i32, week: u32, weekday: Weekday) -> NaiveDate {
NaiveDate::from_isoywd_opt(year, week, weekday).expect("invalid or out-of-range date")
}
/// Makes a new `NaiveDate` from ISO week date (year and week number) and day of the week (DOW).
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/// This assumes the proleptic Gregorian calendar, with the year 0 being 1 BCE.
/// The resulting `NaiveDate` may have a different year from the input year.
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///
/// Returns `None` on the out-of-range date and/or invalid week number.
pub fn from_isoywd_opt(year: i32, week: u32, weekday: Weekday) -> Option<NaiveDate> {
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let flags = YearFlags::from_year(year);
let nweeks = flags.nisoweeks();
if 1 <= week && week <= nweeks {
// ordinal = week ordinal - delta
let weekord = week * 7 + weekday as u32;
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let delta = flags.isoweek_delta();
if weekord <= delta { // ordinal < 1, previous year
let prevflags = YearFlags::from_year(year - 1);
NaiveDate::from_of(year - 1, Of::new(weekord + prevflags.ndays() - delta,
prevflags))
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} else {
let ordinal = weekord - delta;
let ndays = flags.ndays();
if ordinal <= ndays { // this year
NaiveDate::from_of(year, Of::new(ordinal, flags))
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} else { // ordinal > ndays, next year
let nextflags = YearFlags::from_year(year + 1);
NaiveDate::from_of(year + 1, Of::new(ordinal - ndays, nextflags))
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}
}
} else {
None
}
}
/// Makes a new `NaiveDateTime` from the current date and given `NaiveTime`.
#[inline]
pub fn and_time(&self, time: NaiveTime) -> NaiveDateTime {
NaiveDateTime::new(self.clone(), time)
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute and second.
///
/// Fails on invalid hour, minute and/or second.
#[inline]
pub fn and_hms(&self, hour: u32, min: u32, sec: u32) -> NaiveDateTime {
self.and_hms_opt(hour, min, sec).expect("invalid time")
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute and second.
///
/// Returns `None` on invalid hour, minute and/or second.
#[inline]
pub fn and_hms_opt(&self, hour: u32, min: u32, sec: u32) -> Option<NaiveDateTime> {
NaiveTime::from_hms_opt(hour, min, sec).map(|time| self.and_time(time))
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and millisecond.
/// The millisecond part can exceed 1,000 in order to represent the leap second.
///
/// Fails on invalid hour, minute, second and/or millisecond.
#[inline]
pub fn and_hms_milli(&self, hour: u32, min: u32, sec: u32, milli: u32) -> NaiveDateTime {
self.and_hms_milli_opt(hour, min, sec, milli).expect("invalid time")
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and millisecond.
/// The millisecond part can exceed 1,000 in order to represent the leap second.
///
/// Returns `None` on invalid hour, minute, second and/or millisecond.
#[inline]
pub fn and_hms_milli_opt(&self, hour: u32, min: u32, sec: u32,
milli: u32) -> Option<NaiveDateTime> {
NaiveTime::from_hms_milli_opt(hour, min, sec, milli).map(|time| self.and_time(time))
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and microsecond.
/// The microsecond part can exceed 1,000,000 in order to represent the leap second.
///
/// Fails on invalid hour, minute, second and/or microsecond.
#[inline]
pub fn and_hms_micro(&self, hour: u32, min: u32, sec: u32, micro: u32) -> NaiveDateTime {
self.and_hms_micro_opt(hour, min, sec, micro).expect("invalid time")
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and microsecond.
/// The microsecond part can exceed 1,000,000 in order to represent the leap second.
///
/// Returns `None` on invalid hour, minute, second and/or microsecond.
#[inline]
pub fn and_hms_micro_opt(&self, hour: u32, min: u32, sec: u32,
micro: u32) -> Option<NaiveDateTime> {
NaiveTime::from_hms_micro_opt(hour, min, sec, micro).map(|time| self.and_time(time))
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and nanosecond.
/// The nanosecond part can exceed 1,000,000,000 in order to represent the leap second.
///
/// Fails on invalid hour, minute, second and/or nanosecond.
#[inline]
pub fn and_hms_nano(&self, hour: u32, min: u32, sec: u32, nano: u32) -> NaiveDateTime {
self.and_hms_nano_opt(hour, min, sec, nano).expect("invalid time")
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and nanosecond.
/// The nanosecond part can exceed 1,000,000,000 in order to represent the leap second.
///
/// Returns `None` on invalid hour, minute, second and/or nanosecond.
#[inline]
pub fn and_hms_nano_opt(&self, hour: u32, min: u32, sec: u32,
nano: u32) -> Option<NaiveDateTime> {
NaiveTime::from_hms_nano_opt(hour, min, sec, nano).map(|time| self.and_time(time))
}
/// Returns the packed month-day-flags.
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#[inline]
fn mdf(&self) -> Mdf {
self.of().to_mdf()
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}
/// Returns the packed ordinal-flags.
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#[inline]
fn of(&self) -> Of {
Of((self.ymdf & 0b1111_11111_1111) as u32)
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}
/// Makes a new `NaiveDate` with the packed month-day-flags changed.
///
/// Returns `None` when the resulting `NaiveDate` would be invalid.
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#[inline]
fn with_mdf(&self, mdf: Mdf) -> Option<NaiveDate> {
self.with_of(mdf.to_of())
}
/// Makes a new `NaiveDate` with the packed ordinal-flags changed.
///
/// Returns `None` when the resulting `NaiveDate` would be invalid.
#[inline]
fn with_of(&self, of: Of) -> Option<NaiveDate> {
if of.valid() {
let Of(of) = of;
Some(NaiveDate { ymdf: (self.ymdf & !0b111111111_1111) | of as DateImpl })
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} else {
None
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}
}
/// Makes a new `NaiveDate` for the next date.
///
/// Fails when `self` is the last representable date.
#[inline]
pub fn succ(&self) -> NaiveDate {
self.succ_opt().expect("out of bound")
}
/// Makes a new `NaiveDate` for the next date.
///
/// Returns `None` when `self` is the last representable date.
#[inline]
pub fn succ_opt(&self) -> Option<NaiveDate> {
self.with_of(self.of().succ()).or_else(|| NaiveDate::from_ymd_opt(self.year() + 1, 1, 1))
}
/// Makes a new `NaiveDate` for the prior date.
///
/// Fails when `self` is the first representable date.
#[inline]
pub fn pred(&self) -> NaiveDate {
self.pred_opt().expect("out of bound")
}
/// Makes a new `NaiveDate` for the prior date.
///
/// Returns `None` when `self` is the first representable date.
#[inline]
pub fn pred_opt(&self) -> Option<NaiveDate> {
self.with_of(self.of().pred()).or_else(|| NaiveDate::from_ymd_opt(self.year() - 1, 12, 31))
}
}
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impl Datelike for NaiveDate {
#[inline] fn year(&self) -> i32 { (self.ymdf >> 13) as i32 }
#[inline] fn month(&self) -> u32 { self.mdf().month() }
#[inline] fn month0(&self) -> u32 { self.mdf().month() - 1 }
#[inline] fn day(&self) -> u32 { self.mdf().day() }
#[inline] fn day0(&self) -> u32 { self.mdf().day() - 1 }
#[inline] fn ordinal(&self) -> u32 { self.of().ordinal() }
#[inline] fn ordinal0(&self) -> u32 { self.of().ordinal() - 1 }
#[inline] fn weekday(&self) -> Weekday { self.of().weekday() }
fn isoweekdate(&self) -> (i32, u32, Weekday) {
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let of = self.of();
let year = self.year();
let (rawweek, weekday) = of.isoweekdate_raw();
if rawweek < 1 { // previous year
let prevlastweek = YearFlags::from_year(year - 1).nisoweeks();
(year - 1, prevlastweek, weekday)
} else {
let lastweek = of.flags().nisoweeks();
if rawweek > lastweek { // next year
(year + 1, 1, weekday)
} else {
(year, rawweek, weekday)
}
}
}
#[inline]
fn with_year(&self, year: i32) -> Option<NaiveDate> {
// we need to operate with `mdf` since we should keep the month and day number as is
let mdf = self.mdf();
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// adjust the flags as needed
let flags = YearFlags::from_year(year);
let mdf = mdf.with_flags(flags);
NaiveDate::from_mdf(year, mdf)
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}
#[inline]
fn with_month(&self, month: u32) -> Option<NaiveDate> {
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self.with_mdf(self.mdf().with_month(month))
}
#[inline]
fn with_month0(&self, month0: u32) -> Option<NaiveDate> {
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self.with_mdf(self.mdf().with_month(month0 + 1))
}
#[inline]
fn with_day(&self, day: u32) -> Option<NaiveDate> {
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self.with_mdf(self.mdf().with_day(day))
}
#[inline]
fn with_day0(&self, day0: u32) -> Option<NaiveDate> {
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self.with_mdf(self.mdf().with_day(day0 + 1))
}
#[inline]
fn with_ordinal(&self, ordinal: u32) -> Option<NaiveDate> {
self.with_of(self.of().with_ordinal(ordinal))
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}
#[inline]
fn with_ordinal0(&self, ordinal0: u32) -> Option<NaiveDate> {
self.with_of(self.of().with_ordinal(ordinal0 + 1))
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}
}
impl num::Bounded for NaiveDate {
#[inline] fn min_value() -> NaiveDate { MIN_NAIVE }
#[inline] fn max_value() -> NaiveDate { MAX_NAIVE }
}
impl Add<Duration,NaiveDate> for NaiveDate {
fn add(&self, rhs: &Duration) -> NaiveDate {
// TODO overflow
let year = self.year();
let (mut year_div_400, year_mod_400) = year.div_mod_floor(&400);
let cycle = internals::yo_to_cycle(year_mod_400 as u32, self.of().ordinal());
let cycle = cycle as i32 + rhs.num_days();
let (cycle_div_400y, cycle) = cycle.div_mod_floor(&146097);
year_div_400 += cycle_div_400y;
let (year_mod_400, ordinal) = internals::cycle_to_yo(cycle as u32);
let flags = unsafe { YearFlags::from_year_mod_400(year_mod_400 as i32) };
NaiveDate::from_of(year_div_400 * 400 + year_mod_400 as i32,
Of::new(ordinal, flags)).unwrap()
}
}
/*
// Rust issue #7590, the current coherence checker can't handle multiple Add impls
impl Add<NaiveDate,NaiveDate> for Duration {
#[inline]
fn add(&self, rhs: &NaiveDate) -> NaiveDate { rhs.add(self) }
}
*/
impl Sub<NaiveDate,Duration> for NaiveDate {
fn sub(&self, rhs: &NaiveDate) -> Duration {
let year1 = self.year();
let year2 = rhs.year();
let (year1_div_400, year1_mod_400) = year1.div_mod_floor(&400);
let (year2_div_400, year2_mod_400) = year2.div_mod_floor(&400);
let cycle1 = internals::yo_to_cycle(year1_mod_400 as u32, self.of().ordinal()) as i32;
let cycle2 = internals::yo_to_cycle(year2_mod_400 as u32, rhs.of().ordinal()) as i32;
Duration::days((year1_div_400 - year2_div_400) * 146097 + (cycle1 - cycle2))
}
}
impl fmt::Show for NaiveDate {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let year = self.year();
let mdf = self.mdf();
if 0 <= year && year <= 9999 {
write!(f, "{:04}-{:02}-{:02}", year, mdf.month(), mdf.day())
} else {
// ISO 8601 requires the explicit sign for out-of-range years
write!(f, "{:+05}-{:02}-{:02}", year, mdf.month(), mdf.day())
}
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}
}
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/// ISO 8601 calendar date with timezone.
#[deriving(Clone)]
pub struct Date<Off> {
date: NaiveDate,
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offset: Off,
}
/// The minimum possible `Date`.
pub static MIN: Date<UTC> = Date { date: MIN_NAIVE, offset: UTC };
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/// The maximum possible `Date`.
pub static MAX: Date<UTC> = Date { date: MAX_NAIVE, offset: UTC };
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impl<Off:Offset> Date<Off> {
/// Makes a new `Date` with given *UTC* date and offset.
/// The local date should be constructed via the `Offset` trait.
#[inline]
pub fn from_utc(date: NaiveDate, offset: Off) -> Date<Off> {
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Date { date: date, offset: offset }
}
/// Makes a new `NaiveDateTime` from the current date and given `NaiveTime`.
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/// The offset in the current date is preserved.
///
/// Fails on invalid datetime.
#[inline]
pub fn and_time(&self, time: NaiveTime) -> Option<DateTime<Off>> {
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self.offset.from_local_datetime(&self.date.and_time(time)).single()
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute and second.
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/// The offset in the current date is preserved.
///
/// Fails on invalid hour, minute and/or second.
#[inline]
pub fn and_hms(&self, hour: u32, min: u32, sec: u32) -> DateTime<Off> {
self.and_hms_opt(hour, min, sec).expect("invalid time")
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute and second.
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/// The offset in the current date is preserved.
///
/// Returns `None` on invalid hour, minute and/or second.
#[inline]
pub fn and_hms_opt(&self, hour: u32, min: u32, sec: u32) -> Option<DateTime<Off>> {
NaiveTime::from_hms_opt(hour, min, sec).and_then(|time| self.and_time(time))
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}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and millisecond.
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/// The millisecond part can exceed 1,000 in order to represent the leap second.
/// The offset in the current date is preserved.
///
/// Fails on invalid hour, minute, second and/or millisecond.
#[inline]
pub fn and_hms_milli(&self, hour: u32, min: u32, sec: u32, milli: u32) -> DateTime<Off> {
self.and_hms_milli_opt(hour, min, sec, milli).expect("invalid time")
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and millisecond.
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/// The millisecond part can exceed 1,000 in order to represent the leap second.
/// The offset in the current date is preserved.
///
/// Returns `None` on invalid hour, minute, second and/or millisecond.
#[inline]
pub fn and_hms_milli_opt(&self, hour: u32, min: u32, sec: u32,
milli: u32) -> Option<DateTime<Off>> {
NaiveTime::from_hms_milli_opt(hour, min, sec, milli).and_then(|time| self.and_time(time))
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}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and microsecond.
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/// The microsecond part can exceed 1,000,000 in order to represent the leap second.
/// The offset in the current date is preserved.
///
/// Fails on invalid hour, minute, second and/or microsecond.
#[inline]
pub fn and_hms_micro(&self, hour: u32, min: u32, sec: u32, micro: u32) -> DateTime<Off> {
self.and_hms_micro_opt(hour, min, sec, micro).expect("invalid time")
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and microsecond.
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/// The microsecond part can exceed 1,000,000 in order to represent the leap second.
/// The offset in the current date is preserved.
///
/// Returns `None` on invalid hour, minute, second and/or microsecond.
#[inline]
pub fn and_hms_micro_opt(&self, hour: u32, min: u32, sec: u32,
micro: u32) -> Option<DateTime<Off>> {
NaiveTime::from_hms_micro_opt(hour, min, sec, micro).and_then(|time| self.and_time(time))
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}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and nanosecond.
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/// The nanosecond part can exceed 1,000,000,000 in order to represent the leap second.
/// The offset in the current date is preserved.
///
/// Fails on invalid hour, minute, second and/or nanosecond.
#[inline]
pub fn and_hms_nano(&self, hour: u32, min: u32, sec: u32, nano: u32) -> DateTime<Off> {
self.and_hms_nano_opt(hour, min, sec, nano).expect("invalid time")
}
/// Makes a new `NaiveDateTime` from the current date, hour, minute, second and nanosecond.
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/// The nanosecond part can exceed 1,000,000,000 in order to represent the leap second.
/// The offset in the current date is preserved.
///
/// Returns `None` on invalid hour, minute, second and/or nanosecond.
#[inline]
pub fn and_hms_nano_opt(&self, hour: u32, min: u32, sec: u32,
nano: u32) -> Option<DateTime<Off>> {
NaiveTime::from_hms_nano_opt(hour, min, sec, nano).and_then(|time| self.and_time(time))
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}
/// Makes a new `Date` for the next date.
///
/// Fails when `self` is the last representable date.
#[inline]
pub fn succ(&self) -> Date<Off> {
self.succ_opt().expect("out of bound")
}
/// Makes a new `Date` for the next date.
///
/// Returns `None` when `self` is the last representable date.
#[inline]
pub fn succ_opt(&self) -> Option<Date<Off>> {
self.date.succ_opt().map(|date| Date::from_utc(date, self.offset.clone()))
}
/// Makes a new `Date` for the prior date.
///
/// Fails when `self` is the first representable date.
#[inline]
pub fn pred(&self) -> Date<Off> {
self.pred_opt().expect("out of bound")
}
/// Makes a new `Date` for the prior date.
///
/// Returns `None` when `self` is the first representable date.
#[inline]
pub fn pred_opt(&self) -> Option<Date<Off>> {
self.date.pred_opt().map(|date| Date::from_utc(date, self.offset.clone()))
}
/// Returns a view to the local date.
fn local(&self) -> NaiveDate {
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self.offset.to_local_date(&self.date)
}
}
impl<Off:Offset> Datelike for Date<Off> {
#[inline] fn year(&self) -> i32 { self.local().year() }
#[inline] fn month(&self) -> u32 { self.local().month() }
#[inline] fn month0(&self) -> u32 { self.local().month0() }
#[inline] fn day(&self) -> u32 { self.local().day() }
#[inline] fn day0(&self) -> u32 { self.local().day0() }
#[inline] fn ordinal(&self) -> u32 { self.local().ordinal() }
#[inline] fn ordinal0(&self) -> u32 { self.local().ordinal0() }
#[inline] fn weekday(&self) -> Weekday { self.local().weekday() }
#[inline] fn isoweekdate(&self) -> (i32, u32, Weekday) { self.local().isoweekdate() }
#[inline]
fn with_year(&self, year: i32) -> Option<Date<Off>> {
self.local().with_year(year)
.and_then(|date| self.offset.from_local_date(&date).single())
}
#[inline]
fn with_month(&self, month: u32) -> Option<Date<Off>> {
self.local().with_month(month)
.and_then(|date| self.offset.from_local_date(&date).single())
}
#[inline]
fn with_month0(&self, month0: u32) -> Option<Date<Off>> {
self.local().with_month0(month0)
.and_then(|date| self.offset.from_local_date(&date).single())
}
#[inline]
fn with_day(&self, day: u32) -> Option<Date<Off>> {
self.local().with_day(day)
.and_then(|date| self.offset.from_local_date(&date).single())
}
#[inline]
fn with_day0(&self, day0: u32) -> Option<Date<Off>> {
self.local().with_day0(day0)
.and_then(|date| self.offset.from_local_date(&date).single())
}
#[inline]
fn with_ordinal(&self, ordinal: u32) -> Option<Date<Off>> {
self.local().with_ordinal(ordinal)
.and_then(|date| self.offset.from_local_date(&date).single())
}
#[inline]
fn with_ordinal0(&self, ordinal0: u32) -> Option<Date<Off>> {
self.local().with_ordinal0(ordinal0)
.and_then(|date| self.offset.from_local_date(&date).single())
}
}
impl num::Bounded for Date<UTC> {
#[inline] fn min_value() -> Date<UTC> { MIN }
#[inline] fn max_value() -> Date<UTC> { MAX }
}
impl<Off:Offset> PartialEq for Date<Off> {
fn eq(&self, other: &Date<Off>) -> bool { self.date == other.date }
}
impl<Off:Offset> Eq for Date<Off> {
}
impl<Off:Offset, Off2:Offset> Equiv<Date<Off2>> for Date<Off> {
fn equiv(&self, other: &Date<Off2>) -> bool { self.date == other.date }
}
impl<Off:Offset> PartialOrd for Date<Off> {
fn partial_cmp(&self, other: &Date<Off>) -> Option<Ordering> {
self.date.partial_cmp(&other.date)
}
}
impl<Off:Offset> Ord for Date<Off> {
fn cmp(&self, other: &Date<Off>) -> Ordering { self.date.cmp(&other.date) }
}
impl<Off:Offset> hash::Hash for Date<Off> {
fn hash(&self, state: &mut hash::sip::SipState) { self.date.hash(state) }
}
impl<Off:Offset> Add<Duration,Date<Off>> for Date<Off> {
fn add(&self, rhs: &Duration) -> Date<Off> {
Date { date: self.date + *rhs, offset: self.offset.clone() }
}
}
/*
// Rust issue #7590, the current coherence checker can't handle multiple Add impls
impl<Off:Offset> Add<Date<Off>,Date<Off>> for Duration {
#[inline]
fn add(&self, rhs: &Date<Off>) -> Date<Off> { rhs.add(self) }
}
*/
impl<Off:Offset, Off2:Offset> Sub<Date<Off2>,Duration> for Date<Off> {
fn sub(&self, rhs: &Date<Off2>) -> Duration {
self.date - rhs.date
}
}
impl<Off:Offset> fmt::Show for Date<Off> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "{}{}", self.local(), self.offset)
}
}
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#[cfg(test)]
mod tests {
use super::{Datelike, NaiveDate, MIN_YEAR, MAX_YEAR};
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use super::{Sun, Mon, Tue, Wed, Thu, Fri, Sat};
use duration::Duration;
use std::{i32, u32};
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use std::iter::range_inclusive;
#[test]
fn test_date_from_ymd() {
let ymd_opt = |y,m,d| NaiveDate::from_ymd_opt(y, m, d);
assert!(ymd_opt(2012, 0, 1).is_none());
assert!(ymd_opt(2012, 1, 1).is_some());
assert!(ymd_opt(2012, 2, 29).is_some());
assert!(ymd_opt(2014, 2, 29).is_none());
assert!(ymd_opt(2014, 3, 0).is_none());
assert!(ymd_opt(2014, 3, 1).is_some());
assert!(ymd_opt(2014, 3, 31).is_some());
assert!(ymd_opt(2014, 3, 32).is_none());
assert!(ymd_opt(2014, 12, 31).is_some());
assert!(ymd_opt(2014, 13, 1).is_none());
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}
#[test]
fn test_date_from_yo() {
let yo_opt = |y,o| NaiveDate::from_yo_opt(y, o);
let ymd = |y,m,d| NaiveDate::from_ymd(y, m, d);
assert_eq!(yo_opt(2012, 0), None);
assert_eq!(yo_opt(2012, 1), Some(ymd(2012, 1, 1)));
assert_eq!(yo_opt(2012, 2), Some(ymd(2012, 1, 2)));
assert_eq!(yo_opt(2012, 32), Some(ymd(2012, 2, 1)));
assert_eq!(yo_opt(2012, 60), Some(ymd(2012, 2, 29)));
assert_eq!(yo_opt(2012, 61), Some(ymd(2012, 3, 1)));
assert_eq!(yo_opt(2012, 100), Some(ymd(2012, 4, 9)));
assert_eq!(yo_opt(2012, 200), Some(ymd(2012, 7, 18)));
assert_eq!(yo_opt(2012, 300), Some(ymd(2012, 10, 26)));
assert_eq!(yo_opt(2012, 366), Some(ymd(2012, 12, 31)));
assert_eq!(yo_opt(2012, 367), None);
assert_eq!(yo_opt(2014, 0), None);
assert_eq!(yo_opt(2014, 1), Some(ymd(2014, 1, 1)));
assert_eq!(yo_opt(2014, 2), Some(ymd(2014, 1, 2)));
assert_eq!(yo_opt(2014, 32), Some(ymd(2014, 2, 1)));
assert_eq!(yo_opt(2014, 59), Some(ymd(2014, 2, 28)));
assert_eq!(yo_opt(2014, 60), Some(ymd(2014, 3, 1)));
assert_eq!(yo_opt(2014, 100), Some(ymd(2014, 4, 10)));
assert_eq!(yo_opt(2014, 200), Some(ymd(2014, 7, 19)));
assert_eq!(yo_opt(2014, 300), Some(ymd(2014, 10, 27)));
assert_eq!(yo_opt(2014, 365), Some(ymd(2014, 12, 31)));
assert_eq!(yo_opt(2014, 366), None);
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}
#[test]
fn test_date_from_isoywd() {
let isoywd_opt = |y,w,d| NaiveDate::from_isoywd_opt(y, w, d);
let ymd = |y,m,d| NaiveDate::from_ymd(y, m, d);
assert_eq!(isoywd_opt(2004, 0, Sun), None);
assert_eq!(isoywd_opt(2004, 1, Mon), Some(ymd(2003, 12, 29)));
assert_eq!(isoywd_opt(2004, 1, Sun), Some(ymd(2004, 1, 4)));
assert_eq!(isoywd_opt(2004, 2, Mon), Some(ymd(2004, 1, 5)));
assert_eq!(isoywd_opt(2004, 2, Sun), Some(ymd(2004, 1, 11)));
assert_eq!(isoywd_opt(2004, 52, Mon), Some(ymd(2004, 12, 20)));
assert_eq!(isoywd_opt(2004, 52, Sun), Some(ymd(2004, 12, 26)));
assert_eq!(isoywd_opt(2004, 53, Mon), Some(ymd(2004, 12, 27)));
assert_eq!(isoywd_opt(2004, 53, Sun), Some(ymd(2005, 1, 2)));
assert_eq!(isoywd_opt(2004, 54, Mon), None);
assert_eq!(isoywd_opt(2011, 0, Sun), None);
assert_eq!(isoywd_opt(2011, 1, Mon), Some(ymd(2011, 1, 3)));
assert_eq!(isoywd_opt(2011, 1, Sun), Some(ymd(2011, 1, 9)));
assert_eq!(isoywd_opt(2011, 2, Mon), Some(ymd(2011, 1, 10)));
assert_eq!(isoywd_opt(2011, 2, Sun), Some(ymd(2011, 1, 16)));
assert_eq!(isoywd_opt(2018, 51, Mon), Some(ymd(2018, 12, 17)));
assert_eq!(isoywd_opt(2018, 51, Sun), Some(ymd(2018, 12, 23)));
assert_eq!(isoywd_opt(2018, 52, Mon), Some(ymd(2018, 12, 24)));
assert_eq!(isoywd_opt(2018, 52, Sun), Some(ymd(2018, 12, 30)));
assert_eq!(isoywd_opt(2018, 53, Mon), None);
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}
#[test]
fn test_date_from_isoymd_and_isoweekdate() {
for year in range_inclusive(2000i32, 2400) {
for week in range_inclusive(1u32, 53) {
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for &weekday in [Mon, Tue, Wed, Thu, Fri, Sat, Sun].iter() {
let d = NaiveDate::from_isoywd_opt(year, week, weekday);
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if d.is_some() {
let d = d.unwrap();
assert_eq!(d.weekday(), weekday);
let (year_, week_, weekday_) = d.isoweekdate();
assert_eq!(year_, year);
assert_eq!(week_, week);
assert_eq!(weekday_, weekday);
}
}
}
}
for year in range_inclusive(2000i32, 2400) {
for month in range_inclusive(1u32, 12) {
for day in range_inclusive(1u32, 31) {
let d = NaiveDate::from_ymd_opt(year, month, day);
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if d.is_some() {
let d = d.unwrap();
let (year_, week_, weekday_) = d.isoweekdate();
let d_ = NaiveDate::from_isoywd(year_, week_, weekday_);
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assert_eq!(d, d_);
}
}
}
}
}
#[test]
fn test_date_fields() {
fn check(year: i32, month: u32, day: u32, ordinal: u32) {
let d1 = NaiveDate::from_ymd(year, month, day);
assert_eq!(d1.year(), year);
assert_eq!(d1.month(), month);
assert_eq!(d1.day(), day);
assert_eq!(d1.ordinal(), ordinal);
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let d2 = NaiveDate::from_yo(year, ordinal);
assert_eq!(d2.year(), year);
assert_eq!(d2.month(), month);
assert_eq!(d2.day(), day);
assert_eq!(d2.ordinal(), ordinal);
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assert_eq!(d1, d2);
}
check(2012, 1, 1, 1);
check(2012, 1, 2, 2);
check(2012, 2, 1, 32);
check(2012, 2, 29, 60);
check(2012, 3, 1, 61);
check(2012, 4, 9, 100);
check(2012, 7, 18, 200);
check(2012, 10, 26, 300);
check(2012, 12, 31, 366);
check(2014, 1, 1, 1);
check(2014, 1, 2, 2);
check(2014, 2, 1, 32);
check(2014, 2, 28, 59);
check(2014, 3, 1, 60);
check(2014, 4, 10, 100);
check(2014, 7, 19, 200);
check(2014, 10, 27, 300);
check(2014, 12, 31, 365);
}
#[test]
fn test_date_weekday() {
assert_eq!(NaiveDate::from_ymd(1582, 10, 15).weekday(), Fri);
assert_eq!(NaiveDate::from_ymd(1875, 5, 20).weekday(), Thu); // ISO 8601 reference date
assert_eq!(NaiveDate::from_ymd(2000, 1, 1).weekday(), Sat);
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}
#[test]
fn test_date_with_fields() {
let d = NaiveDate::from_ymd(2000, 2, 29);
assert_eq!(d.with_year(-400), Some(NaiveDate::from_ymd(-400, 2, 29)));
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assert_eq!(d.with_year(-100), None);
assert_eq!(d.with_year(1600), Some(NaiveDate::from_ymd(1600, 2, 29)));
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assert_eq!(d.with_year(1900), None);
assert_eq!(d.with_year(2000), Some(NaiveDate::from_ymd(2000, 2, 29)));
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assert_eq!(d.with_year(2001), None);
assert_eq!(d.with_year(2004), Some(NaiveDate::from_ymd(2004, 2, 29)));
assert_eq!(d.with_year(i32::MAX), None);
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let d = NaiveDate::from_ymd(2000, 4, 30);
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assert_eq!(d.with_month(0), None);
assert_eq!(d.with_month(1), Some(NaiveDate::from_ymd(2000, 1, 30)));
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assert_eq!(d.with_month(2), None);
assert_eq!(d.with_month(3), Some(NaiveDate::from_ymd(2000, 3, 30)));
assert_eq!(d.with_month(4), Some(NaiveDate::from_ymd(2000, 4, 30)));
assert_eq!(d.with_month(12), Some(NaiveDate::from_ymd(2000, 12, 30)));
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assert_eq!(d.with_month(13), None);
assert_eq!(d.with_month(u32::MAX), None);
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let d = NaiveDate::from_ymd(2000, 2, 8);
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assert_eq!(d.with_day(0), None);
assert_eq!(d.with_day(1), Some(NaiveDate::from_ymd(2000, 2, 1)));
assert_eq!(d.with_day(29), Some(NaiveDate::from_ymd(2000, 2, 29)));
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assert_eq!(d.with_day(30), None);
assert_eq!(d.with_day(u32::MAX), None);
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let d = NaiveDate::from_ymd(2000, 5, 5);
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assert_eq!(d.with_ordinal(0), None);
assert_eq!(d.with_ordinal(1), Some(NaiveDate::from_ymd(2000, 1, 1)));
assert_eq!(d.with_ordinal(60), Some(NaiveDate::from_ymd(2000, 2, 29)));
assert_eq!(d.with_ordinal(61), Some(NaiveDate::from_ymd(2000, 3, 1)));
assert_eq!(d.with_ordinal(366), Some(NaiveDate::from_ymd(2000, 12, 31)));
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assert_eq!(d.with_ordinal(367), None);
assert_eq!(d.with_ordinal(u32::MAX), None);
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}
#[test]
fn test_date_num_days_from_ce() {
assert_eq!(NaiveDate::from_ymd(1, 1, 1).num_days_from_ce(), 1);
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for year in range_inclusive(-9999i32, 10000) {
assert_eq!(NaiveDate::from_ymd(year, 1, 1).num_days_from_ce(),
NaiveDate::from_ymd(year - 1, 12, 31).num_days_from_ce() + 1);
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}
}
#[test]
fn test_date_succ() {
let ymd = |y,m,d| NaiveDate::from_ymd(y, m, d);
assert_eq!(ymd(2014, 5, 6).succ_opt(), Some(ymd(2014, 5, 7)));
assert_eq!(ymd(2014, 5, 31).succ_opt(), Some(ymd(2014, 6, 1)));
assert_eq!(ymd(2014, 12, 31).succ_opt(), Some(ymd(2015, 1, 1)));
assert_eq!(ymd(2016, 2, 28).succ_opt(), Some(ymd(2016, 2, 29)));
assert_eq!(ymd(MAX_YEAR, 12, 31).succ_opt(), None);
}
#[test]
fn test_date_pred() {
let ymd = |y,m,d| NaiveDate::from_ymd(y, m, d);
assert_eq!(ymd(2016, 3, 1).pred_opt(), Some(ymd(2016, 2, 29)));
assert_eq!(ymd(2015, 1, 1).pred_opt(), Some(ymd(2014, 12, 31)));
assert_eq!(ymd(2014, 6, 1).pred_opt(), Some(ymd(2014, 5, 31)));
assert_eq!(ymd(2014, 5, 7).pred_opt(), Some(ymd(2014, 5, 6)));
assert_eq!(ymd(MIN_YEAR, 1, 1).pred_opt(), None);
}
#[test]
fn test_date_add() {
fn check((y1,m1,d1): (i32, u32, u32), rhs: Duration, (y,m,d): (i32, u32, u32)) {
let lhs = NaiveDate::from_ymd(y1, m1, d1);
let sum = NaiveDate::from_ymd(y, m, d);
assert_eq!(lhs + rhs, sum);
//assert_eq!(rhs + lhs, sum);
}
check((2014, 1, 1), Duration::zero(), (2014, 1, 1));
check((2014, 1, 1), Duration::seconds(86399), (2014, 1, 1));
check((2014, 1, 1), Duration::seconds(-86399), (2014, 1, 1)); // always round towards zero
check((2014, 1, 1), Duration::days(1), (2014, 1, 2));
check((2014, 1, 1), Duration::days(-1), (2013, 12, 31));
check((2014, 1, 1), Duration::days(364), (2014, 12, 31));
check((2014, 1, 1), Duration::days(365*4 + 1), (2018, 1, 1));
check((2014, 1, 1), Duration::days(365*400 + 97), (2414, 1, 1));
check((-7, 1, 1), Duration::days(365*12 + 3), (5, 1, 1));
}
#[test]
fn test_date_sub() {
fn check((y1,m1,d1): (i32, u32, u32), (y2,m2,d2): (i32, u32, u32), diff: Duration) {
let lhs = NaiveDate::from_ymd(y1, m1, d1);
let rhs = NaiveDate::from_ymd(y2, m2, d2);
assert_eq!(lhs - rhs, diff);
assert_eq!(rhs - lhs, -diff);
}
check((2014, 1, 1), (2014, 1, 1), Duration::zero());
check((2014, 1, 2), (2014, 1, 1), Duration::days(1));
check((2014, 12, 31), (2014, 1, 1), Duration::days(364));
check((2015, 1, 3), (2014, 1, 1), Duration::days(365 + 2));
check((2018, 1, 1), (2014, 1, 1), Duration::days(365*4 + 1));
check((2414, 1, 1), (2014, 1, 1), Duration::days(365*400 + 97));
}
#[test]
fn test_date_fmt() {
assert_eq!(NaiveDate::from_ymd(2012, 3, 4).to_string(), "2012-03-04".to_string());
assert_eq!(NaiveDate::from_ymd(0, 3, 4).to_string(), "0000-03-04".to_string());
assert_eq!(NaiveDate::from_ymd(-307, 3, 4).to_string(), "-0307-03-04".to_string());
assert_eq!(NaiveDate::from_ymd(12345, 3, 4).to_string(), "+12345-03-04".to_string());
// the format specifier should have no effect on `NaiveTime`
assert_eq!(format!("{:+30}", NaiveDate::from_ymd(1234, 5, 6)), "1234-05-06".to_string());
assert_eq!(format!("{:30}", NaiveDate::from_ymd(12345, 6, 7)), "+12345-06-07".to_string());
}
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}
/**
* The internal implementation of the calendar and ordinal date.
*
* The current implementation is optimized for determining year, month, day and day of week.
* 4-bit `YearFlags` map to one of 14 possible classes of year in the Gregorian calendar,
* which are included in every packed `NaiveDate` instance.
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* The conversion between the packed calendar date (`Mdf`) and the ordinal date (`Of`) is
* based on the moderately-sized lookup table (~1.5KB)
* and the packed representation is chosen for the efficient lookup.
* Every internal data structure does not validate its input,
* but the conversion keeps the valid value valid and the invalid value invalid
* so that the user-facing `NaiveDate` can validate the input as late as possible.
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*/
#[allow(dead_code)] // some internal methods have been left for consistency
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mod internals {
use std::{i32, num, fmt};
use num::Integer;
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pub use super::{Weekday, Sun, Mon, Tue, Wed, Thu, Fri, Sat};
/// The internal date representation. This also includes the packed `Mdf` value.
pub type DateImpl = i32;
pub static MAX_YEAR: DateImpl = i32::MAX >> 13;
pub static MIN_YEAR: DateImpl = i32::MIN >> 13;
/// The year flags (aka the dominical letter).
///
/// There are 14 possible classes of year in the Gregorian calendar:
/// common and leap years starting with Monday through Sunday.
/// The `YearFlags` stores this information into 4 bits `abbb`,
/// where `a` is `1` for the common year (simplifies the `Of` validation)
/// and `bbb` is a non-zero `Weekday` (mapping `Mon` to 7) of the last day in the past year
/// (simplifies the day of week calculation from the 1-based ordinal).
#[deriving(PartialEq, Eq)]
pub struct YearFlags(pub u8);
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pub static A: YearFlags = YearFlags(0o15); pub static AG: YearFlags = YearFlags(0o05);
pub static B: YearFlags = YearFlags(0o14); pub static BA: YearFlags = YearFlags(0o04);
pub static C: YearFlags = YearFlags(0o13); pub static CB: YearFlags = YearFlags(0o03);
pub static D: YearFlags = YearFlags(0o12); pub static DC: YearFlags = YearFlags(0o02);
pub static E: YearFlags = YearFlags(0o11); pub static ED: YearFlags = YearFlags(0o01);
pub static F: YearFlags = YearFlags(0o17); pub static FE: YearFlags = YearFlags(0o07);
pub static G: YearFlags = YearFlags(0o16); pub static GF: YearFlags = YearFlags(0o06);
static YEAR_TO_FLAGS: [YearFlags, ..400] = [
BA, G, F, E, DC, B, A, G, FE, D, C, B, AG, F, E, D, CB, A, G, F,
ED, C, B, A, GF, E, D, C, BA, G, F, E, DC, B, A, G, FE, D, C, B,
AG, F, E, D, CB, A, G, F, ED, C, B, A, GF, E, D, C, BA, G, F, E,
DC, B, A, G, FE, D, C, B, AG, F, E, D, CB, A, G, F, ED, C, B, A,
GF, E, D, C, BA, G, F, E, DC, B, A, G, FE, D, C, B, AG, F, E, D, // 100
C, B, A, G, FE, D, C, B, AG, F, E, D, CB, A, G, F, ED, C, B, A,
GF, E, D, C, BA, G, F, E, DC, B, A, G, FE, D, C, B, AG, F, E, D,
CB, A, G, F, ED, C, B, A, GF, E, D, C, BA, G, F, E, DC, B, A, G,
FE, D, C, B, AG, F, E, D, CB, A, G, F, ED, C, B, A, GF, E, D, C,
BA, G, F, E, DC, B, A, G, FE, D, C, B, AG, F, E, D, CB, A, G, F, // 200
E, D, C, B, AG, F, E, D, CB, A, G, F, ED, C, B, A, GF, E, D, C,
BA, G, F, E, DC, B, A, G, FE, D, C, B, AG, F, E, D, CB, A, G, F,
ED, C, B, A, GF, E, D, C, BA, G, F, E, DC, B, A, G, FE, D, C, B,
AG, F, E, D, CB, A, G, F, ED, C, B, A, GF, E, D, C, BA, G, F, E,
DC, B, A, G, FE, D, C, B, AG, F, E, D, CB, A, G, F, ED, C, B, A, // 300
G, F, E, D, CB, A, G, F, ED, C, B, A, GF, E, D, C, BA, G, F, E,
DC, B, A, G, FE, D, C, B, AG, F, E, D, CB, A, G, F, ED, C, B, A,
GF, E, D, C, BA, G, F, E, DC, B, A, G, FE, D, C, B, AG, F, E, D,
CB, A, G, F, ED, C, B, A, GF, E, D, C, BA, G, F, E, DC, B, A, G,
FE, D, C, B, AG, F, E, D, CB, A, G, F, ED, C, B, A, GF, E, D, C, // 400
];
static YEAR_DELTAS: [u8, ..401] = [
0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5,
5, 6, 6, 6, 6, 7, 7, 7, 7, 8, 8, 8, 8, 9, 9, 9, 9, 10, 10, 10,
10, 11, 11, 11, 11, 12, 12, 12, 12, 13, 13, 13, 13, 14, 14, 14, 14, 15, 15, 15,
15, 16, 16, 16, 16, 17, 17, 17, 17, 18, 18, 18, 18, 19, 19, 19, 19, 20, 20, 20,
20, 21, 21, 21, 21, 22, 22, 22, 22, 23, 23, 23, 23, 24, 24, 24, 24, 25, 25, 25, // 100
25, 25, 25, 25, 25, 26, 26, 26, 26, 27, 27, 27, 27, 28, 28, 28, 28, 29, 29, 29,
29, 30, 30, 30, 30, 31, 31, 31, 31, 32, 32, 32, 32, 33, 33, 33, 33, 34, 34, 34,
34, 35, 35, 35, 35, 36, 36, 36, 36, 37, 37, 37, 37, 38, 38, 38, 38, 39, 39, 39,
39, 40, 40, 40, 40, 41, 41, 41, 41, 42, 42, 42, 42, 43, 43, 43, 43, 44, 44, 44,
44, 45, 45, 45, 45, 46, 46, 46, 46, 47, 47, 47, 47, 48, 48, 48, 48, 49, 49, 49, // 200
49, 49, 49, 49, 49, 50, 50, 50, 50, 51, 51, 51, 51, 52, 52, 52, 52, 53, 53, 53,
53, 54, 54, 54, 54, 55, 55, 55, 55, 56, 56, 56, 56, 57, 57, 57, 57, 58, 58, 58,
58, 59, 59, 59, 59, 60, 60, 60, 60, 61, 61, 61, 61, 62, 62, 62, 62, 63, 63, 63,
63, 64, 64, 64, 64, 65, 65, 65, 65, 66, 66, 66, 66, 67, 67, 67, 67, 68, 68, 68,
68, 69, 69, 69, 69, 70, 70, 70, 70, 71, 71, 71, 71, 72, 72, 72, 72, 73, 73, 73, // 300
73, 73, 73, 73, 73, 74, 74, 74, 74, 75, 75, 75, 75, 76, 76, 76, 76, 77, 77, 77,
77, 78, 78, 78, 78, 79, 79, 79, 79, 80, 80, 80, 80, 81, 81, 81, 81, 82, 82, 82,
82, 83, 83, 83, 83, 84, 84, 84, 84, 85, 85, 85, 85, 86, 86, 86, 86, 87, 87, 87,
87, 88, 88, 88, 88, 89, 89, 89, 89, 90, 90, 90, 90, 91, 91, 91, 91, 92, 92, 92,
92, 93, 93, 93, 93, 94, 94, 94, 94, 95, 95, 95, 95, 96, 96, 96, 96, 97, 97, 97, 97 // 400+1
];
pub fn cycle_to_yo(cycle: u32) -> (u32, u32) {
let (mut year_mod_400, mut ordinal0) = cycle.div_rem(&365);
let delta = YEAR_DELTAS[year_mod_400 as uint] as u32;
if ordinal0 < delta {
year_mod_400 -= 1;
ordinal0 += 365 - YEAR_DELTAS[year_mod_400 as uint] as u32;
} else {
ordinal0 -= delta;
}
(year_mod_400, ordinal0 + 1)
}
pub fn yo_to_cycle(year_mod_400: u32, ordinal: u32) -> u32 {
year_mod_400 * 365 + YEAR_DELTAS[year_mod_400 as uint] as u32 + ordinal - 1
}
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impl YearFlags {
#[inline]
pub fn from_year(year: i32) -> YearFlags {
let year = year.mod_floor(&400);
unsafe { YearFlags::from_year_mod_400(year) }
}
#[inline]
pub unsafe fn from_year_mod_400(year: i32) -> YearFlags {
YEAR_TO_FLAGS[year as uint]
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}
#[inline]
pub fn ndays(&self) -> u32 {
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let YearFlags(flags) = *self;
366 - (flags >> 3) as u32
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}
#[inline]
pub fn isoweek_delta(&self) -> u32 {
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let YearFlags(flags) = *self;
let mut delta = flags as u32 & 0b111;
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if delta < 3 { delta += 7; }
delta
}
#[inline]
pub fn nisoweeks(&self) -> u32 {
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let YearFlags(flags) = *self;
52 + ((0b00000100_00000110 >> flags as uint) & 1)
}
}
impl fmt::Show for YearFlags {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let YearFlags(flags) = *self;
match flags {
0o15 => "A".fmt(f), 0o05 => "AG".fmt(f),
0o14 => "B".fmt(f), 0o04 => "BA".fmt(f),
0o13 => "C".fmt(f), 0o03 => "CB".fmt(f),
0o12 => "D".fmt(f), 0o02 => "DC".fmt(f),
0o11 => "E".fmt(f), 0o01 => "ED".fmt(f),
0o10 => "F?".fmt(f), 0o00 => "FE?".fmt(f), // non-canonical
0o17 => "F".fmt(f), 0o07 => "FE".fmt(f),
0o16 => "G".fmt(f), 0o06 => "GF".fmt(f),
_ => write!(f, "YearFlags({})", flags),
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}
}
}
pub static MIN_OL: u32 = 1 << 1;
pub static MAX_OL: u32 = 366 << 1; // larger than the non-leap last day `(365 << 1) | 1`
pub static MIN_MDL: u32 = (1 << 6) | (1 << 1);
pub static MAX_MDL: u32 = (12 << 6) | (31 << 1) | 1;
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static XX: i8 = -128;
static MDL_TO_OL: [i8, ..MAX_MDL+1] = [
XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX,
XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX,
XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX,
XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, XX, // 0
XX, XX, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64,
64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64,
64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64,
64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, // 1
XX, XX, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66,
66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66,
66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66,
66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, XX, XX, XX, XX, XX, // 2
XX, XX, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74,
72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74,
72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74,
72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, // 3
XX, XX, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76,
74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76,
74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76,
74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, XX, XX, // 4
XX, XX, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80,
78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80,
78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80,
78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, // 5
XX, XX, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82,
80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82,
80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82,
80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, XX, XX, // 6
XX, XX, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86,
84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86,
84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86,
84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, // 7
XX, XX, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88,
86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88,
86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88,
86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, // 8
XX, XX, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90,
88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90,
88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90,
88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, XX, XX, // 9
XX, XX, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94,
92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94,
92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94,
92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, // 10
XX, XX, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96,
94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96,
94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96,
94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, XX, XX, // 11
XX, XX, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100,
98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100,
98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100,
98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100, // 12
];
static OL_TO_MDL: [u8, ..MAX_OL+1] = [
0, 0, // 0
64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64,
64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64,
64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64,
64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, 64, // 1
66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66,
66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66,
66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66, 66,
66, 66, 66, 66, 66, 66, 66, 66, 66, // 2
74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74,
72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74,
72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74,
72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, 74, 72, // 3
76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76,
74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76,
74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76,
74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, 76, 74, // 4
80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80,
78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80,
78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80,
78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, 80, 78, // 5
82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82,
80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82,
80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82,
80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, 82, 80, // 6
86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86,
84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86,
84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86,
84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, 86, 84, // 7
88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88,
86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88,
86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88,
86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, 88, 86, // 8
90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90,
88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90,
88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90,
88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, 90, 88, // 9
94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94,
92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94,
92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94,
92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, 94, 92, // 10
96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96,
94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96,
94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96,
94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, 96, 94, // 11
100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100,
98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100,
98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100,
98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98,100, 98, // 12
];
/// Ordinal (day of year) and year flags: `(ordinal << 4) | flags`.
///
/// The whole bits except for the least 3 bits are referred as `Ol` (ordinal and leap flag),
/// which is an index to the `OL_TO_MDL` lookup table.
#[deriving(PartialEq, PartialOrd)]
pub struct Of(pub u32);
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impl Of {
#[inline]
fn clamp_ordinal(ordinal: u32) -> u32 {
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if ordinal > 366 {0} else {ordinal}
}
#[inline]
pub fn new(ordinal: u32, YearFlags(flags): YearFlags) -> Of {
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let ordinal = Of::clamp_ordinal(ordinal);
Of((ordinal << 4) | (flags as u32))
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}
#[inline]
pub fn from_mdf(Mdf(mdf): Mdf) -> Of {
let mdl = mdf >> 3;
match MDL_TO_OL.get(mdl as uint) {
Some(&v) => Of(mdf - ((v as i32 as u32 & 0x3ff) << 3)),
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None => Of(0)
}
}
#[inline]
pub fn valid(&self) -> bool {
let Of(of) = *self;
let ol = of >> 3;
ol - MIN_OL <= MAX_OL - MIN_OL
}
#[inline]
pub fn ordinal(&self) -> u32 {
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let Of(of) = *self;
(of >> 4) as u32
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}
#[inline]
pub fn with_ordinal(&self, ordinal: u32) -> Of {
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let ordinal = Of::clamp_ordinal(ordinal);
let Of(of) = *self;
Of((of & 0b1111) | (ordinal << 4))
}
#[inline]
pub fn flags(&self) -> YearFlags {
let Of(of) = *self;
YearFlags((of & 0b1111) as u8)
}
#[inline]
pub fn with_flags(&self, YearFlags(flags): YearFlags) -> Of {
let Of(of) = *self;
Of((of & !0b1111) | (flags as u32))
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}
#[inline]
pub fn weekday(&self) -> Weekday {
let Of(of) = *self;
num::from_u32(((of >> 4) + (of & 0b111)) % 7).unwrap()
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}
#[inline]
pub fn isoweekdate_raw(&self) -> (u32, Weekday) {
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// week ordinal = ordinal + delta
let Of(of) = *self;
let weekord = (of >> 4) + self.flags().isoweek_delta();
(weekord / 7, num::from_u32(weekord % 7).unwrap())
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}
#[inline]
pub fn to_mdf(&self) -> Mdf {
Mdf::from_of(*self)
}
#[inline]
pub fn succ(&self) -> Of {
let Of(of) = *self;
Of(of + (1 << 4))
}
#[inline]
pub fn pred(&self) -> Of {
let Of(of) = *self;
Of(of - (1 << 4))
}
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}
impl fmt::Show for Of {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let Of(of) = *self;
write!(f, "Of(({} << 4) | {:#04o} /*{}*/)",
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of >> 4, of & 0b1111, YearFlags((of & 0b1111) as u8))
}
}
/// Month, day of month and year flags: `(month << 9) | (day << 4) | flags`
///
/// The whole bits except for the least 3 bits are referred as `Mdl`
/// (month, day of month and leap flag),
/// which is an index to the `MDL_TO_OL` lookup table.
#[deriving(PartialEq, PartialOrd)]
pub struct Mdf(pub u32);
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impl Mdf {
#[inline]
fn clamp_month(month: u32) -> u32 {
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if month > 12 {0} else {month}
}
#[inline]
fn clamp_day(day: u32) -> u32 {
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if day > 31 {0} else {day}
}
#[inline]
pub fn new(month: u32, day: u32, YearFlags(flags): YearFlags) -> Mdf {
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let month = Mdf::clamp_month(month);
let day = Mdf::clamp_day(day);
Mdf((month << 9) | (day << 4) | (flags as u32))
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}
#[inline]
pub fn from_of(Of(of): Of) -> Mdf {
let ol = of >> 3;
match OL_TO_MDL.get(ol as uint) {
Some(&v) => Mdf(of + (v as u32 << 3)),
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None => Mdf(0)
}
}
#[inline]
pub fn valid(&self) -> bool {
let Mdf(mdf) = *self;
let mdl = mdf >> 3;
match MDL_TO_OL.get(mdl as uint) {
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Some(&v) => v >= 0,
None => false
}
}
#[inline]
pub fn month(&self) -> u32 {
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let Mdf(mdf) = *self;
(mdf >> 9) as u32
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}
#[inline]
pub fn with_month(&self, month: u32) -> Mdf {
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let month = Mdf::clamp_month(month);
let Mdf(mdf) = *self;
Mdf((mdf & 0b11111_1111) | (month << 9))
}
#[inline]
pub fn day(&self) -> u32 {
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let Mdf(mdf) = *self;
((mdf >> 4) & 0b11111) as u32
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}
#[inline]
pub fn with_day(&self, day: u32) -> Mdf {
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let day = Mdf::clamp_day(day);
let Mdf(mdf) = *self;
Mdf((mdf & !0b11111_0000) | (day << 4))
}
#[inline]
pub fn flags(&self) -> YearFlags {
let Mdf(mdf) = *self;
YearFlags((mdf & 0b1111) as u8)
}
#[inline]
pub fn with_flags(&self, YearFlags(flags): YearFlags) -> Mdf {
let Mdf(mdf) = *self;
Mdf((mdf & !0b1111) | (flags as u32))
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}
#[inline]
pub fn to_of(&self) -> Of {
Of::from_mdf(*self)
}
}
impl fmt::Show for Mdf {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let Mdf(mdf) = *self;
write!(f, "Mdf(({} << 9) | ({} << 4) | {:#04o} /*{}*/)",
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mdf >> 9, (mdf >> 4) & 0b11111, mdf & 0b1111, YearFlags((mdf & 0b1111) as u8))
}
}
#[cfg(test)]
mod tests {
extern crate test;
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use super::{Of, Mdf};
use super::{YearFlags, A, B, C, D, E, F, G, AG, BA, CB, DC, ED, FE, GF};
use super::{Sun, Mon, Tue, Wed, Thu, Fri, Sat};
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use std::iter::range_inclusive;
use std::u32;
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static NONLEAP_FLAGS: [YearFlags, ..7] = [A, B, C, D, E, F, G];
static LEAP_FLAGS: [YearFlags, ..7] = [AG, BA, CB, DC, ED, FE, GF];
static FLAGS: [YearFlags, ..14] = [A, B, C, D, E, F, G, AG, BA, CB, DC, ED, FE, GF];
#[test]
fn test_year_flags_ndays_from_year() {
assert_eq!(YearFlags::from_year(2014).ndays(), 365);
assert_eq!(YearFlags::from_year(2012).ndays(), 366);
assert_eq!(YearFlags::from_year(2000).ndays(), 366);
assert_eq!(YearFlags::from_year(1900).ndays(), 365);
assert_eq!(YearFlags::from_year(1600).ndays(), 366);
assert_eq!(YearFlags::from_year( 1).ndays(), 365);
assert_eq!(YearFlags::from_year( 0).ndays(), 366); // 1 BCE (proleptic Gregorian)
assert_eq!(YearFlags::from_year( -1).ndays(), 365); // 2 BCE
assert_eq!(YearFlags::from_year( -4).ndays(), 366); // 5 BCE
assert_eq!(YearFlags::from_year( -99).ndays(), 365); // 100 BCE
assert_eq!(YearFlags::from_year(-100).ndays(), 365); // 101 BCE
assert_eq!(YearFlags::from_year(-399).ndays(), 365); // 400 BCE
assert_eq!(YearFlags::from_year(-400).ndays(), 366); // 401 BCE
}
#[test]
fn test_year_flags_nisoweeks() {
assert_eq!(A.nisoweeks(), 52);
assert_eq!(B.nisoweeks(), 52);
assert_eq!(C.nisoweeks(), 52);
assert_eq!(D.nisoweeks(), 53);
assert_eq!(E.nisoweeks(), 52);
assert_eq!(F.nisoweeks(), 52);
assert_eq!(G.nisoweeks(), 52);
assert_eq!(AG.nisoweeks(), 52);
assert_eq!(BA.nisoweeks(), 52);
assert_eq!(CB.nisoweeks(), 52);
assert_eq!(DC.nisoweeks(), 53);
assert_eq!(ED.nisoweeks(), 53);
assert_eq!(FE.nisoweeks(), 52);
assert_eq!(GF.nisoweeks(), 52);
}
#[bench]
fn bench_year_flags_from_year(bh: &mut test::Bencher) {
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bh.iter(|| {
for year in range(-999i32, 1000) {
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YearFlags::from_year(year);
}
});
}
#[test]
fn test_of() {
fn check(expected: bool, flags: YearFlags, ordinal1: u32, ordinal2: u32) {
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for ordinal in range_inclusive(ordinal1, ordinal2) {
let of = Of::new(ordinal, flags);
assert!(of.valid() == expected,
"ordinal {} = {} should be {} for dominical year {}",
ordinal, of, if expected {"valid"} else {"invalid"}, flags);
}
}
for &flags in NONLEAP_FLAGS.iter() {
check(false, flags, 0, 0);
check(true, flags, 1, 365);
check(false, flags, 366, 1024);
check(false, flags, u32::MAX, u32::MAX);
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}
for &flags in LEAP_FLAGS.iter() {
check(false, flags, 0, 0);
check(true, flags, 1, 366);
check(false, flags, 367, 1024);
check(false, flags, u32::MAX, u32::MAX);
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}
}
#[test]
fn test_mdf_valid() {
fn check(expected: bool, flags: YearFlags, month1: u32, day1: u32,
month2: u32, day2: u32) {
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for month in range_inclusive(month1, month2) {
for day in range_inclusive(day1, day2) {
let mdf = Mdf::new(month, day, flags);
assert!(mdf.valid() == expected,
"month {} day {} = {} should be {} for dominical year {}",
month, day, mdf, if expected {"valid"} else {"invalid"}, flags);
}
}
}
for &flags in NONLEAP_FLAGS.iter() {
check(false, flags, 0, 0, 0, 1024);
check(false, flags, 0, 0, 16, 0);
check(true, flags, 1, 1, 1, 31); check(false, flags, 1, 32, 1, 1024);
check(true, flags, 2, 1, 2, 28); check(false, flags, 2, 29, 2, 1024);
check(true, flags, 3, 1, 3, 31); check(false, flags, 3, 32, 3, 1024);
check(true, flags, 4, 1, 4, 30); check(false, flags, 4, 31, 4, 1024);
check(true, flags, 5, 1, 5, 31); check(false, flags, 5, 32, 5, 1024);
check(true, flags, 6, 1, 6, 30); check(false, flags, 6, 31, 6, 1024);
check(true, flags, 7, 1, 7, 31); check(false, flags, 7, 32, 7, 1024);
check(true, flags, 8, 1, 8, 31); check(false, flags, 8, 32, 8, 1024);
check(true, flags, 9, 1, 9, 30); check(false, flags, 9, 31, 9, 1024);
check(true, flags, 10, 1, 10, 31); check(false, flags, 10, 32, 10, 1024);
check(true, flags, 11, 1, 11, 30); check(false, flags, 11, 31, 11, 1024);
check(true, flags, 12, 1, 12, 31); check(false, flags, 12, 32, 12, 1024);
check(false, flags, 13, 0, 16, 1024);
check(false, flags, u32::MAX, 0, u32::MAX, 1024);
check(false, flags, 0, u32::MAX, 16, u32::MAX);
check(false, flags, u32::MAX, u32::MAX, u32::MAX, u32::MAX);
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}
for &flags in LEAP_FLAGS.iter() {
check(false, flags, 0, 0, 0, 1024);
check(false, flags, 0, 0, 16, 0);
check(true, flags, 1, 1, 1, 31); check(false, flags, 1, 32, 1, 1024);
check(true, flags, 2, 1, 2, 29); check(false, flags, 2, 30, 2, 1024);
check(true, flags, 3, 1, 3, 31); check(false, flags, 3, 32, 3, 1024);
check(true, flags, 4, 1, 4, 30); check(false, flags, 4, 31, 4, 1024);
check(true, flags, 5, 1, 5, 31); check(false, flags, 5, 32, 5, 1024);
check(true, flags, 6, 1, 6, 30); check(false, flags, 6, 31, 6, 1024);
check(true, flags, 7, 1, 7, 31); check(false, flags, 7, 32, 7, 1024);
check(true, flags, 8, 1, 8, 31); check(false, flags, 8, 32, 8, 1024);
check(true, flags, 9, 1, 9, 30); check(false, flags, 9, 31, 9, 1024);
check(true, flags, 10, 1, 10, 31); check(false, flags, 10, 32, 10, 1024);
check(true, flags, 11, 1, 11, 30); check(false, flags, 11, 31, 11, 1024);
check(true, flags, 12, 1, 12, 31); check(false, flags, 12, 32, 12, 1024);
check(false, flags, 13, 0, 16, 1024);
check(false, flags, u32::MAX, 0, u32::MAX, 1024);
check(false, flags, 0, u32::MAX, 16, u32::MAX);
check(false, flags, u32::MAX, u32::MAX, u32::MAX, u32::MAX);
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}
}
#[test]
fn test_of_fields() {
for &flags in FLAGS.iter() {
for ordinal in range_inclusive(1u32, 366) {
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let of = Of::new(ordinal, flags);
if of.valid() {
assert_eq!(of.ordinal(), ordinal);
}
}
}
}
#[test]
fn test_of_with_fields() {
fn check(flags: YearFlags, ordinal: u32) {
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let of = Of::new(ordinal, flags);
for ordinal in range_inclusive(0u32, 1024) {
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let of = of.with_ordinal(ordinal);
assert_eq!(of.valid(), Of::new(ordinal, flags).valid());
if of.valid() {
assert_eq!(of.ordinal(), ordinal);
}
}
}
for &flags in NONLEAP_FLAGS.iter() {
check(flags, 1);
check(flags, 365);
}
for &flags in LEAP_FLAGS.iter() {
check(flags, 1);
check(flags, 366);
}
}
#[test]
fn test_of_weekday() {
assert_eq!(Of::new(1, A).weekday(), Sun);
assert_eq!(Of::new(1, B).weekday(), Sat);
assert_eq!(Of::new(1, C).weekday(), Fri);
assert_eq!(Of::new(1, D).weekday(), Thu);
assert_eq!(Of::new(1, E).weekday(), Wed);
assert_eq!(Of::new(1, F).weekday(), Tue);
assert_eq!(Of::new(1, G).weekday(), Mon);
assert_eq!(Of::new(1, AG).weekday(), Sun);
assert_eq!(Of::new(1, BA).weekday(), Sat);
assert_eq!(Of::new(1, CB).weekday(), Fri);
assert_eq!(Of::new(1, DC).weekday(), Thu);
assert_eq!(Of::new(1, ED).weekday(), Wed);
assert_eq!(Of::new(1, FE).weekday(), Tue);
assert_eq!(Of::new(1, GF).weekday(), Mon);
for &flags in FLAGS.iter() {
let mut prev = Of::new(1, flags).weekday();
for ordinal in range_inclusive(2u32, flags.ndays()) {
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let of = Of::new(ordinal, flags);
let expected = prev.succ();
assert_eq!(of.weekday(), expected);
prev = expected;
}
}
}
#[test]
fn test_mdf_fields() {
for &flags in FLAGS.iter() {
for month in range_inclusive(1u32, 12) {
for day in range_inclusive(1u32, 31) {
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let mdf = Mdf::new(month, day, flags);
if mdf.valid() {
assert_eq!(mdf.month(), month);
assert_eq!(mdf.day(), day);
}
}
}
}
}
#[test]
fn test_mdf_with_fields() {
fn check(flags: YearFlags, month: u32, day: u32) {
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let mdf = Mdf::new(month, day, flags);
for month in range_inclusive(0u32, 16) {
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let mdf = mdf.with_month(month);
assert_eq!(mdf.valid(), Mdf::new(month, day, flags).valid());
if mdf.valid() {
assert_eq!(mdf.month(), month);
assert_eq!(mdf.day(), day);
}
}
for day in range_inclusive(0u32, 1024) {
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let mdf = mdf.with_day(day);
assert_eq!(mdf.valid(), Mdf::new(month, day, flags).valid());
if mdf.valid() {
assert_eq!(mdf.month(), month);
assert_eq!(mdf.day(), day);
}
}
}
for &flags in NONLEAP_FLAGS.iter() {
check(flags, 1, 1);
check(flags, 1, 31);
check(flags, 2, 1);
check(flags, 2, 28);
check(flags, 2, 29);
check(flags, 12, 31);
}
for &flags in LEAP_FLAGS.iter() {
check(flags, 1, 1);
check(flags, 1, 31);
check(flags, 2, 1);
check(flags, 2, 29);
check(flags, 2, 30);
check(flags, 12, 31);
}
}
#[test]
fn test_of_isoweekdate_raw() {
for &flags in FLAGS.iter() {
// January 4 should be in the first week
let (week, _) = Of::new(4 /* January 4 */, flags).isoweekdate_raw();
assert_eq!(week, 1);
}
}
#[test]
fn test_of_to_mdf() {
for i in range_inclusive(0u32, 8192) {
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let of = Of(i);
assert_eq!(of.valid(), of.to_mdf().valid());
}
}
#[test]
fn test_mdf_to_of() {
for i in range_inclusive(0u32, 8192) {
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let mdf = Mdf(i);
assert_eq!(mdf.valid(), mdf.to_of().valid());
}
}
#[test]
fn test_of_to_mdf_to_of() {
for i in range_inclusive(0u32, 8192) {
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let of = Of(i);
if of.valid() {
assert_eq!(of, of.to_mdf().to_of());
}
}
}
#[test]
fn test_mdf_to_of_to_mdf() {
for i in range_inclusive(0u32, 8192) {
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let mdf = Mdf(i);
if mdf.valid() {
assert_eq!(mdf, mdf.to_of().to_mdf());
}
}
}
}
}