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use std::error::Error as StdError;
use std::fmt;
use std::str::Chars;
use std::time::Duration;
/// Error parsing human-friendly duration
#[derive(Debug, PartialEq, Clone)]
pub enum Error {
/// Invalid character during parsing
///
/// More specifically anything that is not alphanumeric is prohibited
///
/// The field is an byte offset of the character in the string.
InvalidCharacter(usize),
/// Non-numeric value where number is expected
///
/// This usually means that either time unit is broken into words,
/// e.g. `m sec` instead of `msec`, or just number is omitted,
/// for example `2 hours min` instead of `2 hours 1 min`
///
/// The field is an byte offset of the errorneous character
/// in the string.
NumberExpected(usize),
/// Unit in the number is not one of allowed units
///
/// See documentation of `parse_duration` for the list of supported
/// time units.
///
/// The two fields are start and end (exclusive) of the slice from
/// the original string, containing errorneous value
UnknownUnit {
/// Start of the invalid unit inside the original string
start: usize,
/// End of the invalid unit inside the original string
end: usize,
/// The unit verbatim
unit: String,
/// A number associated with the unit
value: u64,
},
/// The numeric value is too large
///
/// Usually this means value is too large to be useful. If user writes
/// data in subsecond units, then the maximum is about 3k years. When
/// using seconds, or larger units, the limit is even larger.
NumberOverflow,
/// The value was an empty string (or consists only whitespace)
Empty,
}
impl StdError for Error {}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Error::InvalidCharacter(offset) => write!(f, "invalid character at {}", offset),
Error::NumberExpected(offset) => write!(f, "expected number at {}", offset),
Error::UnknownUnit { unit, value, .. } if &unit == &"" => {
write!(f,
"time unit needed, for example {0}sec or {0}ms",
value,
)
}
Error::UnknownUnit { unit, .. } => {
write!(
f,
"unknown time unit {:?}, \
supported units: ns, us, ms, sec, min, hours, days, \
weeks, months, years (and few variations)",
unit
)
}
Error::NumberOverflow => write!(f, "number is too large"),
Error::Empty => write!(f, "value was empty"),
}
}
}
/// A wrapper type that allows you to Display a Duration
#[derive(Debug, Clone)]
pub struct FormattedDuration(Duration);
trait OverflowOp: Sized {
fn mul(self, other: Self) -> Result<Self, Error>;
fn add(self, other: Self) -> Result<Self, Error>;
}
impl OverflowOp for u64 {
fn mul(self, other: Self) -> Result<Self, Error> {
self.checked_mul(other).ok_or(Error::NumberOverflow)
}
fn add(self, other: Self) -> Result<Self, Error> {
self.checked_add(other).ok_or(Error::NumberOverflow)
}
}
struct Parser<'a> {
iter: Chars<'a>,
src: &'a str,
current: (u64, u64),
}
impl<'a> Parser<'a> {
fn off(&self) -> usize {
self.src.len() - self.iter.as_str().len()
}
fn parse_first_char(&mut self) -> Result<Option<u64>, Error> {
let off = self.off();
for c in self.iter.by_ref() {
match c {
'0'..='9' => {
return Ok(Some(c as u64 - '0' as u64));
}
c if c.is_whitespace() => continue,
_ => {
return Err(Error::NumberExpected(off));
}
}
}
Ok(None)
}
fn parse_unit(&mut self, n: u64, start: usize, end: usize)
-> Result<(), Error>
{
let (mut sec, nsec) = match &self.src[start..end] {
"nanos" | "nsec" | "ns" => (0u64, n),
"usec" | "us" => (0u64, n.mul(1000)?),
"millis" | "msec" | "ms" => (0u64, n.mul(1_000_000)?),
"seconds" | "second" | "secs" | "sec" | "s" => (n, 0),
"minutes" | "minute" | "min" | "mins" | "m"
=> (n.mul(60)?, 0),
"hours" | "hour" | "hr" | "hrs" | "h" => (n.mul(3600)?, 0),
"days" | "day" | "d" => (n.mul(86400)?, 0),
"weeks" | "week" | "w" => (n.mul(86400*7)?, 0),
"months" | "month" | "M" => (n.mul(2_630_016)?, 0), // 30.44d
"years" | "year" | "y" => (n.mul(31_557_600)?, 0), // 365.25d
_ => {
return Err(Error::UnknownUnit {
start, end,
unit: self.src[start..end].to_string(),
value: n,
});
}
};
let mut nsec = self.current.1.add(nsec)?;
if nsec > 1_000_000_000 {
sec = sec.add(nsec / 1_000_000_000)?;
nsec %= 1_000_000_000;
}
sec = self.current.0.add(sec)?;
self.current = (sec, nsec);
Ok(())
}
fn parse(mut self) -> Result<Duration, Error> {
let mut n = self.parse_first_char()?.ok_or(Error::Empty)?;
'outer: loop {
let mut off = self.off();
while let Some(c) = self.iter.next() {
match c {
'0'..='9' => {
n = n.checked_mul(10)
.and_then(|x| x.checked_add(c as u64 - '0' as u64))
.ok_or(Error::NumberOverflow)?;
}
c if c.is_whitespace() => {}
'a'..='z' | 'A'..='Z' => {
break;
}
_ => {
return Err(Error::InvalidCharacter(off));
}
}
off = self.off();
}
let start = off;
let mut off = self.off();
while let Some(c) = self.iter.next() {
match c {
'0'..='9' => {
self.parse_unit(n, start, off)?;
n = c as u64 - '0' as u64;
continue 'outer;
}
c if c.is_whitespace() => break,
'a'..='z' | 'A'..='Z' => {}
_ => {
return Err(Error::InvalidCharacter(off));
}
}
off = self.off();
}
self.parse_unit(n, start, off)?;
n = match self.parse_first_char()? {
Some(n) => n,
None => return Ok(
Duration::new(self.current.0, self.current.1 as u32)),
};
}
}
}
/// Parse duration object `1hour 12min 5s`
///
/// The duration object is a concatenation of time spans. Where each time
/// span is an integer number and a suffix. Supported suffixes:
///
/// * `nsec`, `ns` -- nanoseconds
/// * `usec`, `us` -- microseconds
/// * `msec`, `ms` -- milliseconds
/// * `seconds`, `second`, `sec`, `s`
/// * `minutes`, `minute`, `min`, `m`
/// * `hours`, `hour`, `hr`, `h`
/// * `days`, `day`, `d`
/// * `weeks`, `week`, `w`
/// * `months`, `month`, `M` -- defined as 30.44 days
/// * `years`, `year`, `y` -- defined as 365.25 days
///
/// # Examples
///
/// ```
/// use std::time::Duration;
/// use humantime::parse_duration;
///
/// assert_eq!(parse_duration("2h 37min"), Ok(Duration::new(9420, 0)));
/// assert_eq!(parse_duration("32ms"), Ok(Duration::new(0, 32_000_000)));
/// ```
pub fn parse_duration(s: &str) -> Result<Duration, Error> {
Parser {
iter: s.chars(),
src: s,
current: (0, 0),
}.parse()
}
/// Formats duration into a human-readable string
///
/// Note: this format is guaranteed to have same value when using
/// parse_duration, but we can change some details of the exact composition
/// of the value.
///
/// # Examples
///
/// ```
/// use std::time::Duration;
/// use humantime::format_duration;
///
/// let val1 = Duration::new(9420, 0);
/// assert_eq!(format_duration(val1).to_string(), "2h 37m");
/// let val2 = Duration::new(0, 32_000_000);
/// assert_eq!(format_duration(val2).to_string(), "32ms");
/// ```
pub fn format_duration(val: Duration) -> FormattedDuration {
FormattedDuration(val)
}
fn item_plural(f: &mut fmt::Formatter, started: &mut bool,
name: &str, value: u64)
-> fmt::Result
{
if value > 0 {
if *started {
f.write_str(" ")?;
}
write!(f, "{}{}", value, name)?;
if value > 1 {
f.write_str("s")?;
}
*started = true;
}
Ok(())
}
fn item(f: &mut fmt::Formatter, started: &mut bool, name: &str, value: u32)
-> fmt::Result
{
if value > 0 {
if *started {
f.write_str(" ")?;
}
write!(f, "{}{}", value, name)?;
*started = true;
}
Ok(())
}
impl FormattedDuration {
/// Returns a reference to the [`Duration`][] that is being formatted.
pub fn get_ref(&self) -> &Duration {
&self.0
}
}
impl fmt::Display for FormattedDuration {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let secs = self.0.as_secs();
let nanos = self.0.subsec_nanos();
if secs == 0 && nanos == 0 {
f.write_str("0s")?;
return Ok(());
}
let years = secs / 31_557_600; // 365.25d
let ydays = secs % 31_557_600;
let months = ydays / 2_630_016; // 30.44d
let mdays = ydays % 2_630_016;
let days = mdays / 86400;
let day_secs = mdays % 86400;
let hours = day_secs / 3600;
let minutes = day_secs % 3600 / 60;
let seconds = day_secs % 60;
let millis = nanos / 1_000_000;
let micros = nanos / 1000 % 1000;
let nanosec = nanos % 1000;
let ref mut started = false;
item_plural(f, started, "year", years)?;
item_plural(f, started, "month", months)?;
item_plural(f, started, "day", days)?;
item(f, started, "h", hours as u32)?;
item(f, started, "m", minutes as u32)?;
item(f, started, "s", seconds as u32)?;
item(f, started, "ms", millis)?;
item(f, started, "us", micros)?;
item(f, started, "ns", nanosec)?;
Ok(())
}
}
#[cfg(test)]
mod test {
use std::time::Duration;
use rand::Rng;
use super::{parse_duration, format_duration};
use super::Error;
#[test]
#[allow(clippy::cognitive_complexity)]
fn test_units() {
assert_eq!(parse_duration("17nsec"), Ok(Duration::new(0, 17)));
assert_eq!(parse_duration("17nanos"), Ok(Duration::new(0, 17)));
assert_eq!(parse_duration("33ns"), Ok(Duration::new(0, 33)));
assert_eq!(parse_duration("3usec"), Ok(Duration::new(0, 3000)));
assert_eq!(parse_duration("78us"), Ok(Duration::new(0, 78000)));
assert_eq!(parse_duration("31msec"), Ok(Duration::new(0, 31_000_000)));
assert_eq!(parse_duration("31millis"), Ok(Duration::new(0, 31_000_000)));
assert_eq!(parse_duration("6ms"), Ok(Duration::new(0, 6_000_000)));
assert_eq!(parse_duration("3000s"), Ok(Duration::new(3000, 0)));
assert_eq!(parse_duration("300sec"), Ok(Duration::new(300, 0)));
assert_eq!(parse_duration("300secs"), Ok(Duration::new(300, 0)));
assert_eq!(parse_duration("50seconds"), Ok(Duration::new(50, 0)));
assert_eq!(parse_duration("1second"), Ok(Duration::new(1, 0)));
assert_eq!(parse_duration("100m"), Ok(Duration::new(6000, 0)));
assert_eq!(parse_duration("12min"), Ok(Duration::new(720, 0)));
assert_eq!(parse_duration("12mins"), Ok(Duration::new(720, 0)));
assert_eq!(parse_duration("1minute"), Ok(Duration::new(60, 0)));
assert_eq!(parse_duration("7minutes"), Ok(Duration::new(420, 0)));
assert_eq!(parse_duration("2h"), Ok(Duration::new(7200, 0)));
assert_eq!(parse_duration("7hr"), Ok(Duration::new(25200, 0)));
assert_eq!(parse_duration("7hrs"), Ok(Duration::new(25200, 0)));
assert_eq!(parse_duration("1hour"), Ok(Duration::new(3600, 0)));
assert_eq!(parse_duration("24hours"), Ok(Duration::new(86400, 0)));
assert_eq!(parse_duration("1day"), Ok(Duration::new(86400, 0)));
assert_eq!(parse_duration("2days"), Ok(Duration::new(172_800, 0)));
assert_eq!(parse_duration("365d"), Ok(Duration::new(31_536_000, 0)));
assert_eq!(parse_duration("1week"), Ok(Duration::new(604_800, 0)));
assert_eq!(parse_duration("7weeks"), Ok(Duration::new(4_233_600, 0)));
assert_eq!(parse_duration("52w"), Ok(Duration::new(31_449_600, 0)));
assert_eq!(parse_duration("1month"), Ok(Duration::new(2_630_016, 0)));
assert_eq!(parse_duration("3months"), Ok(Duration::new(3*2_630_016, 0)));
assert_eq!(parse_duration("12M"), Ok(Duration::new(31_560_192, 0)));
assert_eq!(parse_duration("1year"), Ok(Duration::new(31_557_600, 0)));
assert_eq!(parse_duration("7years"), Ok(Duration::new(7*31_557_600, 0)));
assert_eq!(parse_duration("17y"), Ok(Duration::new(536_479_200, 0)));
}
#[test]
fn test_combo() {
assert_eq!(parse_duration("20 min 17 nsec "), Ok(Duration::new(1200, 17)));
assert_eq!(parse_duration("2h 15m"), Ok(Duration::new(8100, 0)));
}
#[test]
fn all_86400_seconds() {
for second in 0..86400 { // scan leap year and non-leap year
let d = Duration::new(second, 0);
assert_eq!(d,
parse_duration(&format_duration(d).to_string()).unwrap());
}
}
#[test]
fn random_second() {
for _ in 0..10000 {
let sec = rand::thread_rng().gen_range(0, 253_370_764_800);
let d = Duration::new(sec, 0);
assert_eq!(d,
parse_duration(&format_duration(d).to_string()).unwrap());
}
}
#[test]
fn random_any() {
for _ in 0..10000 {
let sec = rand::thread_rng().gen_range(0, 253_370_764_800);
let nanos = rand::thread_rng().gen_range(0, 1_000_000_000);
let d = Duration::new(sec, nanos);
assert_eq!(d,
parse_duration(&format_duration(d).to_string()).unwrap());
}
}
#[test]
fn test_overlow() {
// Overflow on subseconds is earlier because of how we do conversion
// we could fix it, but I don't see any good reason for this
assert_eq!(parse_duration("100000000000000000000ns"),
Err(Error::NumberOverflow));
assert_eq!(parse_duration("100000000000000000us"),
Err(Error::NumberOverflow));
assert_eq!(parse_duration("100000000000000ms"),
Err(Error::NumberOverflow));
assert_eq!(parse_duration("100000000000000000000s"),
Err(Error::NumberOverflow));
assert_eq!(parse_duration("10000000000000000000m"),
Err(Error::NumberOverflow));
assert_eq!(parse_duration("1000000000000000000h"),
Err(Error::NumberOverflow));
assert_eq!(parse_duration("100000000000000000d"),
Err(Error::NumberOverflow));
assert_eq!(parse_duration("10000000000000000w"),
Err(Error::NumberOverflow));
assert_eq!(parse_duration("1000000000000000M"),
Err(Error::NumberOverflow));
assert_eq!(parse_duration("10000000000000y"),
Err(Error::NumberOverflow));
}
#[test]
fn test_nice_error_message() {
assert_eq!(parse_duration("123").unwrap_err().to_string(),
"time unit needed, for example 123sec or 123ms");
assert_eq!(parse_duration("10 months 1").unwrap_err().to_string(),
"time unit needed, for example 1sec or 1ms");
assert_eq!(parse_duration("10nights").unwrap_err().to_string(),
"unknown time unit \"nights\", supported units: \
ns, us, ms, sec, min, hours, days, weeks, months, \
years (and few variations)");
}
}
|