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android / toolchain / cargo-vet / HEAD / . / android / vendor / indicatif-0.17.0 / src / format.rs
blob: a9eede385a5014edc87a9455976df326df725574 [file] [log] [blame]
use std::fmt;
use std::time::Duration;
use number_prefix::NumberPrefix;
const SECOND: Duration = Duration::from_secs(1);
const MINUTE: Duration = Duration::from_secs(60);
const HOUR: Duration = Duration::from_secs(60 * 60);
const DAY: Duration = Duration::from_secs(24 * 60 * 60);
const WEEK: Duration = Duration::from_secs(7 * 24 * 60 * 60);
const YEAR: Duration = Duration::from_secs(365 * 24 * 60 * 60);
/// Wraps an std duration for human basic formatting.
#[derive(Debug)]
pub struct FormattedDuration(pub Duration);
/// Wraps an std duration for human readable formatting.
#[derive(Debug)]
pub struct HumanDuration(pub Duration);
/// Formats bytes for human readability
#[derive(Debug)]
pub struct HumanBytes(pub u64);
/// Formats bytes for human readability using SI prefixes
#[derive(Debug)]
pub struct DecimalBytes(pub u64);
/// Formats bytes for human readability using ISO/IEC prefixes
#[derive(Debug)]
pub struct BinaryBytes(pub u64);
/// Formats counts for human readability using commas
#[derive(Debug)]
pub struct HumanCount(pub u64);
impl fmt::Display for FormattedDuration {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
let mut t = self.0.as_secs();
let seconds = t % 60;
t /= 60;
let minutes = t % 60;
t /= 60;
let hours = t % 24;
t /= 24;
if t > 0 {
let days = t;
write!(f, "{}d {:02}:{:02}:{:02}", days, hours, minutes, seconds)
} else {
write!(f, "{:02}:{:02}:{:02}", hours, minutes, seconds)
}
}
}
// `HumanDuration` should be as intuitively understandable as possible.
// So we want to round, not truncate: otherwise 1 hour and 59 minutes
// would display an ETA of "1 hour" which underestimates the time
// remaining by a factor 2.
//
// To make the precision more uniform, we avoid displaying "1 unit"
// (except for seconds), because it would be displayed for a relatively
// long duration compared to the unit itself. Instead, when we arrive
// around 1.5 unit, we change from "2 units" to the next smaller unit
// (e.g. "89 seconds").
//
// Formally:
// * for n >= 2, we go from "n+1 units" to "n units" exactly at (n + 1/2) units
// * we switch from "2 units" to the next smaller unit at (1.5 unit minus half of the next smaller unit)
impl fmt::Display for HumanDuration {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
let mut idx = 0;
for (i, &(cur, _, _)) in UNITS.iter().enumerate() {
idx = i;
match UNITS.get(i + 1) {
Some(&next) if self.0 + next.0 / 2 >= cur + cur / 2 => break,
_ => continue,
}
}
let (unit, name, alt) = UNITS[idx];
// FIXME when `div_duration_f64` is stable
let mut t = (self.0.as_secs_f64() / unit.as_secs_f64()).round() as usize;
if idx < UNITS.len() - 1 {
t = Ord::max(t, 2);
}
match (f.alternate(), t) {
(true, _) => write!(f, "{}{}", t, alt),
(false, 1) => write!(f, "{} {}", t, name),
(false, _) => write!(f, "{} {}s", t, name),
}
}
}
const UNITS: &[(Duration, &str, &str)] = &[
(YEAR, "year", "y"),
(WEEK, "week", "w"),
(DAY, "day", "d"),
(HOUR, "hour", "h"),
(MINUTE, "minute", "m"),
(SECOND, "second", "s"),
];
impl fmt::Display for HumanBytes {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match NumberPrefix::binary(self.0 as f64) {
NumberPrefix::Standalone(number) => write!(f, "{:.0}B", number),
NumberPrefix::Prefixed(prefix, number) => write!(f, "{:.2} {}B", number, prefix),
}
}
}
impl fmt::Display for DecimalBytes {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match NumberPrefix::decimal(self.0 as f64) {
NumberPrefix::Standalone(number) => write!(f, "{:.0}B", number),
NumberPrefix::Prefixed(prefix, number) => write!(f, "{:.2} {}B", number, prefix),
}
}
}
impl fmt::Display for BinaryBytes {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match NumberPrefix::binary(self.0 as f64) {
NumberPrefix::Standalone(number) => write!(f, "{:.0}B", number),
NumberPrefix::Prefixed(prefix, number) => write!(f, "{:.2} {}B", number, prefix),
}
}
}
impl fmt::Display for HumanCount {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
use fmt::Write;
let num = self.0.to_string();
let len = num.len();
for (idx, c) in num.chars().enumerate() {
let pos = len - idx - 1;
f.write_char(c)?;
if pos > 0 && pos % 3 == 0 {
f.write_char(',')?;
}
}
Ok(())
}
}
#[cfg(test)]
mod tests {
use super::*;
const MILLI: Duration = Duration::from_millis(1);
#[test]
fn human_duration_alternate() {
for (unit, _, alt) in UNITS {
assert_eq!(
format!("2{}", alt),
format!("{:#}", HumanDuration(2 * *unit))
);
}
}
#[test]
fn human_duration_less_than_one_second() {
assert_eq!(
"0 seconds",
format!("{}", HumanDuration(Duration::from_secs(0)))
);
assert_eq!("0 seconds", format!("{}", HumanDuration(MILLI)));
assert_eq!("0 seconds", format!("{}", HumanDuration(499 * MILLI)));
assert_eq!("1 second", format!("{}", HumanDuration(500 * MILLI)));
assert_eq!("1 second", format!("{}", HumanDuration(999 * MILLI)));
}
#[test]
fn human_duration_less_than_two_seconds() {
assert_eq!("1 second", format!("{}", HumanDuration(1499 * MILLI)));
assert_eq!("2 seconds", format!("{}", HumanDuration(1500 * MILLI)));
assert_eq!("2 seconds", format!("{}", HumanDuration(1999 * MILLI)));
}
#[test]
fn human_duration_one_unit() {
assert_eq!("1 second", format!("{}", HumanDuration(SECOND)));
assert_eq!("60 seconds", format!("{}", HumanDuration(MINUTE)));
assert_eq!("60 minutes", format!("{}", HumanDuration(HOUR)));
assert_eq!("24 hours", format!("{}", HumanDuration(DAY)));
assert_eq!("7 days", format!("{}", HumanDuration(WEEK)));
assert_eq!("52 weeks", format!("{}", HumanDuration(YEAR)));
}
#[test]
fn human_duration_less_than_one_and_a_half_unit() {
// this one is actually done at 1.5 unit - half of the next smaller unit - epsilon
// and should display the next smaller unit
let d = HumanDuration(MINUTE + MINUTE / 2 - SECOND / 2 - MILLI);
assert_eq!("89 seconds", format!("{}", d));
let d = HumanDuration(HOUR + HOUR / 2 - MINUTE / 2 - MILLI);
assert_eq!("89 minutes", format!("{}", d));
let d = HumanDuration(DAY + DAY / 2 - HOUR / 2 - MILLI);
assert_eq!("35 hours", format!("{}", d));
let d = HumanDuration(WEEK + WEEK / 2 - DAY / 2 - MILLI);
assert_eq!("10 days", format!("{}", d));
let d = HumanDuration(YEAR + YEAR / 2 - WEEK / 2 - MILLI);
assert_eq!("78 weeks", format!("{}", d));
}
#[test]
fn human_duration_one_and_a_half_unit() {
// this one is actually done at 1.5 unit - half of the next smaller unit
// and should still display "2 units"
let d = HumanDuration(MINUTE + MINUTE / 2 - SECOND / 2);
assert_eq!("2 minutes", format!("{}", d));
let d = HumanDuration(HOUR + HOUR / 2 - MINUTE / 2);
assert_eq!("2 hours", format!("{}", d));
let d = HumanDuration(DAY + DAY / 2 - HOUR / 2);
assert_eq!("2 days", format!("{}", d));
let d = HumanDuration(WEEK + WEEK / 2 - DAY / 2);
assert_eq!("2 weeks", format!("{}", d));
let d = HumanDuration(YEAR + YEAR / 2 - WEEK / 2);
assert_eq!("2 years", format!("{}", d));
}
#[test]
fn human_duration_two_units() {
assert_eq!("2 seconds", format!("{}", HumanDuration(2 * SECOND)));
assert_eq!("2 minutes", format!("{}", HumanDuration(2 * MINUTE)));
assert_eq!("2 hours", format!("{}", HumanDuration(2 * HOUR)));
assert_eq!("2 days", format!("{}", HumanDuration(2 * DAY)));
assert_eq!("2 weeks", format!("{}", HumanDuration(2 * WEEK)));
assert_eq!("2 years", format!("{}", HumanDuration(2 * YEAR)));
}
#[test]
fn human_duration_less_than_two_and_a_half_units() {
let d = HumanDuration(2 * SECOND + SECOND / 2 - MILLI);
assert_eq!("2 seconds", format!("{}", d));
let d = HumanDuration(2 * MINUTE + MINUTE / 2 - MILLI);
assert_eq!("2 minutes", format!("{}", d));
let d = HumanDuration(2 * HOUR + HOUR / 2 - MILLI);
assert_eq!("2 hours", format!("{}", d));
let d = HumanDuration(2 * DAY + DAY / 2 - MILLI);
assert_eq!("2 days", format!("{}", d));
let d = HumanDuration(2 * WEEK + WEEK / 2 - MILLI);
assert_eq!("2 weeks", format!("{}", d));
let d = HumanDuration(2 * YEAR + YEAR / 2 - MILLI);
assert_eq!("2 years", format!("{}", d));
}
#[test]
fn human_duration_two_and_a_half_units() {
let d = HumanDuration(2 * SECOND + SECOND / 2);
assert_eq!("3 seconds", format!("{}", d));
let d = HumanDuration(2 * MINUTE + MINUTE / 2);
assert_eq!("3 minutes", format!("{}", d));
let d = HumanDuration(2 * HOUR + HOUR / 2);
assert_eq!("3 hours", format!("{}", d));
let d = HumanDuration(2 * DAY + DAY / 2);
assert_eq!("3 days", format!("{}", d));
let d = HumanDuration(2 * WEEK + WEEK / 2);
assert_eq!("3 weeks", format!("{}", d));
let d = HumanDuration(2 * YEAR + YEAR / 2);
assert_eq!("3 years", format!("{}", d));
}
#[test]
fn human_duration_three_units() {
assert_eq!("3 seconds", format!("{}", HumanDuration(3 * SECOND)));
assert_eq!("3 minutes", format!("{}", HumanDuration(3 * MINUTE)));
assert_eq!("3 hours", format!("{}", HumanDuration(3 * HOUR)));
assert_eq!("3 days", format!("{}", HumanDuration(3 * DAY)));
assert_eq!("3 weeks", format!("{}", HumanDuration(3 * WEEK)));
assert_eq!("3 years", format!("{}", HumanDuration(3 * YEAR)));
}
#[test]
fn human_count() {
assert_eq!("42", format!("{}", HumanCount(42)));
assert_eq!("7,654", format!("{}", HumanCount(7654)));
assert_eq!("12,345", format!("{}", HumanCount(12345)));
assert_eq!("1,234,567,890", format!("{}", HumanCount(1234567890)));
}
}