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exa/src/output/time.rs

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//! Timestamp formatting.
use std::time::{SystemTime, UNIX_EPOCH};
use datetime::{LocalDateTime, TimeZone, DatePiece, TimePiece};
use datetime::fmt::DateFormat;
use lazy_static::lazy_static;
use unicode_width::UnicodeWidthStr;
/// Every timestamp in exa needs to be rendered by a **time format**.
/// Formatting times is tricky, because how a timestamp is rendered can
/// depend on one or more of the following:
///
/// - The users locale, for printing the month name as “Feb”, or as “fév”,
/// or as “2月”;
/// - The current year, because certain formats will be less precise when
/// dealing with dates far in the past;
/// - The formatting style that the user asked for on the command-line.
///
/// Because not all formatting styles need the same data, they all have their
/// own enum variants. Its not worth looking the locale up if the formatter
/// prints month names as numbers.
///
/// Currently exa does not support *custom* styles, where the user enters a
/// format string in an environment variable or something. Just these four.
#[derive(PartialEq, Eq, Debug, Copy, Clone)]
pub enum TimeFormat {
/// The **default format** uses the users locale to print month names,
/// and specifies the timestamp down to the minute for recent times, and
/// day for older times.
DefaultFormat,
/// Use the **ISO format**, which specifies the timestamp down to the
/// minute for recent times, and day for older times. It uses a number
/// for the month so it doesnt use the locale.
ISOFormat,
/// Use the **long ISO format**, which specifies the timestamp down to the
/// minute using only numbers, without needing the locale or year.
LongISO,
/// Use the **full ISO format**, which specifies the timestamp down to the
/// millisecond and includes its offset down to the minute. This too uses
/// only numbers so doesnt require any special consideration.
FullISO,
}
// There are two different formatting functions because local and zoned
// timestamps are separate types.
impl TimeFormat {
pub fn format_local(self, time: SystemTime) -> String {
match self {
Self::DefaultFormat => default_local(time),
Self::ISOFormat => iso_local(time),
Self::LongISO => long_local(time),
Self::FullISO => full_local(time),
}
}
pub fn format_zoned(self, time: SystemTime, zone: &TimeZone) -> String {
match self {
Self::DefaultFormat => default_zoned(time, zone),
Self::ISOFormat => iso_zoned(time, zone),
Self::LongISO => long_zoned(time, zone),
Self::FullISO => full_zoned(time, zone),
}
}
}
#[allow(trivial_numeric_casts)]
fn default_local(time: SystemTime) -> String {
let date = LocalDateTime::at(systemtime_epoch(time));
let date_format = get_dateformat(&date);
date_format.format(&date, &*LOCALE)
}
#[allow(trivial_numeric_casts)]
fn default_zoned(time: SystemTime, zone: &TimeZone) -> String {
let date = zone.to_zoned(LocalDateTime::at(systemtime_epoch(time)));
let date_format = get_dateformat(&date);
date_format.format(&date, &*LOCALE)
}
fn get_dateformat(date: &LocalDateTime) -> &'static DateFormat<'static> {
match (is_recent(&date), *MAXIMUM_MONTH_WIDTH) {
(true, 4) => &FOUR_WIDE_DATE_TIME,
(true, 5) => &FIVE_WIDE_DATE_TIME,
(true, _) => &OTHER_WIDE_DATE_TIME,
(false, 4) => &FOUR_WIDE_DATE_YEAR,
(false, 5) => &FIVE_WIDE_DATE_YEAR,
(false, _) => &OTHER_WIDE_DATE_YEAR,
}
}
#[allow(trivial_numeric_casts)]
fn long_local(time: SystemTime) -> String {
let date = LocalDateTime::at(systemtime_epoch(time));
format!("{:04}-{:02}-{:02} {:02}:{:02}",
date.year(), date.month() as usize, date.day(),
date.hour(), date.minute())
}
#[allow(trivial_numeric_casts)]
fn long_zoned(time: SystemTime, zone: &TimeZone) -> String {
let date = zone.to_zoned(LocalDateTime::at(systemtime_epoch(time)));
format!("{:04}-{:02}-{:02} {:02}:{:02}",
date.year(), date.month() as usize, date.day(),
date.hour(), date.minute())
}
#[allow(trivial_numeric_casts)]
fn full_local(time: SystemTime) -> String {
let date = LocalDateTime::at(systemtime_epoch(time));
format!("{:04}-{:02}-{:02} {:02}:{:02}:{:02}.{:09}",
date.year(), date.month() as usize, date.day(),
date.hour(), date.minute(), date.second(), systemtime_nanos(time))
}
#[allow(trivial_numeric_casts)]
fn full_zoned(time: SystemTime, zone: &TimeZone) -> String {
use datetime::Offset;
let local = LocalDateTime::at(systemtime_epoch(time));
let date = zone.to_zoned(local);
let offset = Offset::of_seconds(zone.offset(local) as i32).expect("Offset out of range");
format!("{:04}-{:02}-{:02} {:02}:{:02}:{:02}.{:09} {:+03}{:02}",
date.year(), date.month() as usize, date.day(),
date.hour(), date.minute(), date.second(), systemtime_nanos(time),
offset.hours(), offset.minutes().abs())
}
#[allow(trivial_numeric_casts)]
fn iso_local(time: SystemTime) -> String {
let date = LocalDateTime::at(systemtime_epoch(time));
if is_recent(&date) {
format!("{:02}-{:02} {:02}:{:02}",
date.month() as usize, date.day(),
date.hour(), date.minute())
}
else {
format!("{:04}-{:02}-{:02}",
date.year(), date.month() as usize, date.day())
}
}
#[allow(trivial_numeric_casts)]
fn iso_zoned(time: SystemTime, zone: &TimeZone) -> String {
let date = zone.to_zoned(LocalDateTime::at(systemtime_epoch(time)));
if is_recent(&date) {
format!("{:02}-{:02} {:02}:{:02}",
date.month() as usize, date.day(),
date.hour(), date.minute())
}
else {
format!("{:04}-{:02}-{:02}",
date.year(), date.month() as usize, date.day())
}
}
fn systemtime_epoch(time: SystemTime) -> i64 {
time.duration_since(UNIX_EPOCH)
.map(|t| t.as_secs() as i64)
.unwrap_or_else(|e| {
let diff = e.duration();
let mut secs = diff.as_secs();
if diff.subsec_nanos() > 0 {
secs += 1;
}
-(secs as i64)
})
}
fn systemtime_nanos(time: SystemTime) -> u32 {
time.duration_since(UNIX_EPOCH)
.map(|t| t.subsec_nanos())
.unwrap_or_else(|e| {
let nanos = e.duration().subsec_nanos();
if nanos > 0 {
1_000_000_000 - nanos
} else {
nanos
}
})
}
fn is_recent(date: &LocalDateTime) -> bool {
date.year() == *CURRENT_YEAR
}
lazy_static! {
static ref CURRENT_YEAR: i64 = LocalDateTime::now().year();
static ref LOCALE: locale::Time = {
locale::Time::load_user_locale()
.unwrap_or_else(|_| locale::Time::english())
};
static ref MAXIMUM_MONTH_WIDTH: usize = {
// Some locales use a three-character wide month name (Jan to Dec);
// others vary between three to four (1月 to 12月, juil.). We check each month width
// to detect the longest and set the output format accordingly.
let mut maximum_month_width = 0;
for i in 0..11 {
let current_month_width = UnicodeWidthStr::width(&*LOCALE.short_month_name(i));
maximum_month_width = std::cmp::max(maximum_month_width, current_month_width);
}
maximum_month_width
};
static ref FOUR_WIDE_DATE_TIME: DateFormat<'static> = DateFormat::parse(
"{2>:D} {4<:M} {02>:h}:{02>:m}"
).unwrap();
static ref FIVE_WIDE_DATE_TIME: DateFormat<'static> = DateFormat::parse(
"{2>:D} {5<:M} {02>:h}:{02>:m}"
).unwrap();
static ref OTHER_WIDE_DATE_TIME: DateFormat<'static> = DateFormat::parse(
"{2>:D} {:M} {02>:h}:{02>:m}"
).unwrap();
static ref FOUR_WIDE_DATE_YEAR: DateFormat<'static> = DateFormat::parse(
"{2>:D} {4<:M} {5>:Y}"
).unwrap();
static ref FIVE_WIDE_DATE_YEAR: DateFormat<'static> = DateFormat::parse(
"{2>:D} {5<:M} {5>:Y}"
).unwrap();
static ref OTHER_WIDE_DATE_YEAR: DateFormat<'static> = DateFormat::parse(
"{2>:D} {:M} {5>:Y}"
).unwrap();
}
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