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use std::{cmp, fmt, ops};
use libc::{c_long, time_t, suseconds_t, timespec, timeval};
pub trait TimeValLike: Sized {
#[inline]
fn zero() -> Self {
Self::seconds(0)
}
#[inline]
fn hours(hours: i64) -> Self {
let secs = hours.checked_mul(SECS_PER_HOUR)
.expect("TimeValLike::hours ouf of bounds");
Self::seconds(secs)
}
#[inline]
fn minutes(minutes: i64) -> Self {
let secs = minutes.checked_mul(SECS_PER_MINUTE)
.expect("TimeValLike::minutes out of bounds");
Self::seconds(secs)
}
fn seconds(seconds: i64) -> Self;
fn milliseconds(milliseconds: i64) -> Self;
fn microseconds(microseconds: i64) -> Self;
fn nanoseconds(nanoseconds: i64) -> Self;
#[inline]
fn num_hours(&self) -> i64 {
self.num_seconds() / 3600
}
#[inline]
fn num_minutes(&self) -> i64 {
self.num_seconds() / 60
}
fn num_seconds(&self) -> i64;
fn num_milliseconds(&self) -> i64;
fn num_microseconds(&self) -> i64;
fn num_nanoseconds(&self) -> i64;
}
#[repr(C)]
#[derive(Clone, Copy)]
pub struct TimeSpec(timespec);
const NANOS_PER_SEC: i64 = 1_000_000_000;
const SECS_PER_MINUTE: i64 = 60;
const SECS_PER_HOUR: i64 = 3600;
#[cfg(target_pointer_width = "64")]
const TS_MAX_SECONDS: i64 = (::std::i64::MAX / NANOS_PER_SEC) - 1;
#[cfg(target_pointer_width = "32")]
const TS_MAX_SECONDS: i64 = ::std::isize::MAX as i64;
const TS_MIN_SECONDS: i64 = -TS_MAX_SECONDS;
impl AsRef<timespec> for TimeSpec {
fn as_ref(&self) -> ×pec {
&self.0
}
}
impl fmt::Debug for TimeSpec {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
fmt.debug_struct("TimeSpec")
.field("tv_sec", &self.tv_sec())
.field("tv_nsec", &self.tv_nsec())
.finish()
}
}
impl PartialEq for TimeSpec {
// The implementation of cmp is simplified by assuming that the struct is
// normalized. That is, tv_nsec must always be within [0, 1_000_000_000)
fn eq(&self, other: &TimeSpec) -> bool {
self.tv_sec() == other.tv_sec() && self.tv_nsec() == other.tv_nsec()
}
}
impl Eq for TimeSpec {}
impl Ord for TimeSpec {
// The implementation of cmp is simplified by assuming that the struct is
// normalized. That is, tv_nsec must always be within [0, 1_000_000_000)
fn cmp(&self, other: &TimeSpec) -> cmp::Ordering {
if self.tv_sec() == other.tv_sec() {
self.tv_nsec().cmp(&other.tv_nsec())
} else {
self.tv_sec().cmp(&other.tv_sec())
}
}
}
impl PartialOrd for TimeSpec {
fn partial_cmp(&self, other: &TimeSpec) -> Option<cmp::Ordering> {
Some(self.cmp(other))
}
}
impl TimeValLike for TimeSpec {
#[inline]
fn seconds(seconds: i64) -> TimeSpec {
assert!(seconds >= TS_MIN_SECONDS && seconds <= TS_MAX_SECONDS,
"TimeSpec out of bounds; seconds={}", seconds);
TimeSpec(timespec {tv_sec: seconds as time_t, tv_nsec: 0 })
}
#[inline]
fn milliseconds(milliseconds: i64) -> TimeSpec {
let nanoseconds = milliseconds.checked_mul(1_000_000)
.expect("TimeSpec::milliseconds out of bounds");
TimeSpec::nanoseconds(nanoseconds)
}
/// Makes a new `TimeSpec` with given number of microseconds.
#[inline]
fn microseconds(microseconds: i64) -> TimeSpec {
let nanoseconds = microseconds.checked_mul(1_000)
.expect("TimeSpec::milliseconds out of bounds");
TimeSpec::nanoseconds(nanoseconds)
}
/// Makes a new `TimeSpec` with given number of nanoseconds.
#[inline]
fn nanoseconds(nanoseconds: i64) -> TimeSpec {
let (secs, nanos) = div_mod_floor_64(nanoseconds, NANOS_PER_SEC);
assert!(secs >= TS_MIN_SECONDS && secs <= TS_MAX_SECONDS,
"TimeSpec out of bounds");
TimeSpec(timespec {tv_sec: secs as time_t,
tv_nsec: nanos as c_long })
}
fn num_seconds(&self) -> i64 {
if self.tv_sec() < 0 && self.tv_nsec() > 0 {
(self.tv_sec() + 1) as i64
} else {
self.tv_sec() as i64
}
}
fn num_milliseconds(&self) -> i64 {
self.num_nanoseconds() / 1_000_000
}
fn num_microseconds(&self) -> i64 {
self.num_nanoseconds() / 1_000_000_000
}
fn num_nanoseconds(&self) -> i64 {
let secs = self.num_seconds() * 1_000_000_000;
let nsec = self.nanos_mod_sec();
secs + nsec as i64
}
}
impl TimeSpec {
fn nanos_mod_sec(&self) -> c_long {
if self.tv_sec() < 0 && self.tv_nsec() > 0 {
self.tv_nsec() - NANOS_PER_SEC as c_long
} else {
self.tv_nsec()
}
}
pub fn tv_sec(&self) -> time_t {
self.0.tv_sec
}
pub fn tv_nsec(&self) -> c_long {
self.0.tv_nsec
}
}
impl ops::Neg for TimeSpec {
type Output = TimeSpec;
fn neg(self) -> TimeSpec {
TimeSpec::nanoseconds(-self.num_nanoseconds())
}
}
impl ops::Add for TimeSpec {
type Output = TimeSpec;
fn add(self, rhs: TimeSpec) -> TimeSpec {
TimeSpec::nanoseconds(
self.num_nanoseconds() + rhs.num_nanoseconds())
}
}
impl ops::Sub for TimeSpec {
type Output = TimeSpec;
fn sub(self, rhs: TimeSpec) -> TimeSpec {
TimeSpec::nanoseconds(
self.num_nanoseconds() - rhs.num_nanoseconds())
}
}
impl ops::Mul<i32> for TimeSpec {
type Output = TimeSpec;
fn mul(self, rhs: i32) -> TimeSpec {
let usec = self.num_nanoseconds().checked_mul(rhs as i64)
.expect("TimeSpec multiply out of bounds");
TimeSpec::nanoseconds(usec)
}
}
impl ops::Div<i32> for TimeSpec {
type Output = TimeSpec;
fn div(self, rhs: i32) -> TimeSpec {
let usec = self.num_nanoseconds() / rhs as i64;
TimeSpec::nanoseconds(usec)
}
}
impl fmt::Display for TimeSpec {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let (abs, sign) = if self.tv_sec() < 0 {
(-*self, "-")
} else {
(*self, "")
};
let sec = abs.tv_sec();
try!(write!(f, "{}", sign));
if abs.tv_nsec() == 0 {
if abs.tv_sec() == 1 {
try!(write!(f, "{} second", sec));
} else {
try!(write!(f, "{} seconds", sec));
}
} else if abs.tv_nsec() % 1_000_000 == 0 {
try!(write!(f, "{}.{:03} seconds", sec, abs.tv_nsec() / 1_000_000));
} else if abs.tv_nsec() % 1_000 == 0 {
try!(write!(f, "{}.{:06} seconds", sec, abs.tv_nsec() / 1_000));
} else {
try!(write!(f, "{}.{:09} seconds", sec, abs.tv_nsec()));
}
Ok(())
}
}
#[repr(C)]
#[derive(Clone, Copy)]
pub struct TimeVal(timeval);
const MICROS_PER_SEC: i64 = 1_000_000;
#[cfg(target_pointer_width = "64")]
const TV_MAX_SECONDS: i64 = (::std::i64::MAX / MICROS_PER_SEC) - 1;
#[cfg(target_pointer_width = "32")]
const TV_MAX_SECONDS: i64 = ::std::isize::MAX as i64;
const TV_MIN_SECONDS: i64 = -TV_MAX_SECONDS;
impl AsRef<timeval> for TimeVal {
fn as_ref(&self) -> &timeval {
&self.0
}
}
impl fmt::Debug for TimeVal {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
fmt.debug_struct("TimeVal")
.field("tv_sec", &self.tv_sec())
.field("tv_usec", &self.tv_usec())
.finish()
}
}
impl PartialEq for TimeVal {
// The implementation of cmp is simplified by assuming that the struct is
// normalized. That is, tv_usec must always be within [0, 1_000_000)
fn eq(&self, other: &TimeVal) -> bool {
self.tv_sec() == other.tv_sec() && self.tv_usec() == other.tv_usec()
}
}
impl Eq for TimeVal {}
impl Ord for TimeVal {
// The implementation of cmp is simplified by assuming that the struct is
// normalized. That is, tv_usec must always be within [0, 1_000_000)
fn cmp(&self, other: &TimeVal) -> cmp::Ordering {
if self.tv_sec() == other.tv_sec() {
self.tv_usec().cmp(&other.tv_usec())
} else {
self.tv_sec().cmp(&other.tv_sec())
}
}
}
impl PartialOrd for TimeVal {
fn partial_cmp(&self, other: &TimeVal) -> Option<cmp::Ordering> {
Some(self.cmp(other))
}
}
impl TimeValLike for TimeVal {
#[inline]
fn seconds(seconds: i64) -> TimeVal {
assert!(seconds >= TV_MIN_SECONDS && seconds <= TV_MAX_SECONDS,
"TimeVal out of bounds; seconds={}", seconds);
TimeVal(timeval {tv_sec: seconds as time_t, tv_usec: 0 })
}
#[inline]
fn milliseconds(milliseconds: i64) -> TimeVal {
let microseconds = milliseconds.checked_mul(1_000)
.expect("TimeVal::milliseconds out of bounds");
TimeVal::microseconds(microseconds)
}
/// Makes a new `TimeVal` with given number of microseconds.
#[inline]
fn microseconds(microseconds: i64) -> TimeVal {
let (secs, micros) = div_mod_floor_64(microseconds, MICROS_PER_SEC);
assert!(secs >= TV_MIN_SECONDS && secs <= TV_MAX_SECONDS,
"TimeVal out of bounds");
TimeVal(timeval {tv_sec: secs as time_t,
tv_usec: micros as suseconds_t })
}
/// Makes a new `TimeVal` with given number of nanoseconds. Some precision
/// will be lost
#[inline]
fn nanoseconds(nanoseconds: i64) -> TimeVal {
let microseconds = nanoseconds / 1000;
let (secs, micros) = div_mod_floor_64(microseconds, MICROS_PER_SEC);
assert!(secs >= TV_MIN_SECONDS && secs <= TV_MAX_SECONDS,
"TimeVal out of bounds");
TimeVal(timeval {tv_sec: secs as time_t,
tv_usec: micros as suseconds_t })
}
fn num_seconds(&self) -> i64 {
if self.tv_sec() < 0 && self.tv_usec() > 0 {
(self.tv_sec() + 1) as i64
} else {
self.tv_sec() as i64
}
}
fn num_milliseconds(&self) -> i64 {
self.num_microseconds() / 1_000
}
fn num_microseconds(&self) -> i64 {
let secs = self.num_seconds() * 1_000_000;
let usec = self.micros_mod_sec();
secs + usec as i64
}
fn num_nanoseconds(&self) -> i64 {
self.num_microseconds() * 1_000
}
}
impl TimeVal {
fn micros_mod_sec(&self) -> suseconds_t {
if self.tv_sec() < 0 && self.tv_usec() > 0 {
self.tv_usec() - MICROS_PER_SEC as suseconds_t
} else {
self.tv_usec()
}
}
pub fn tv_sec(&self) -> time_t {
self.0.tv_sec
}
pub fn tv_usec(&self) -> suseconds_t {
self.0.tv_usec
}
}
impl ops::Neg for TimeVal {
type Output = TimeVal;
fn neg(self) -> TimeVal {
TimeVal::microseconds(-self.num_microseconds())
}
}
impl ops::Add for TimeVal {
type Output = TimeVal;
fn add(self, rhs: TimeVal) -> TimeVal {
TimeVal::microseconds(
self.num_microseconds() + rhs.num_microseconds())
}
}
impl ops::Sub for TimeVal {
type Output = TimeVal;
fn sub(self, rhs: TimeVal) -> TimeVal {
TimeVal::microseconds(
self.num_microseconds() - rhs.num_microseconds())
}
}
impl ops::Mul<i32> for TimeVal {
type Output = TimeVal;
fn mul(self, rhs: i32) -> TimeVal {
let usec = self.num_microseconds().checked_mul(rhs as i64)
.expect("TimeVal multiply out of bounds");
TimeVal::microseconds(usec)
}
}
impl ops::Div<i32> for TimeVal {
type Output = TimeVal;
fn div(self, rhs: i32) -> TimeVal {
let usec = self.num_microseconds() / rhs as i64;
TimeVal::microseconds(usec)
}
}
impl fmt::Display for TimeVal {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let (abs, sign) = if self.tv_sec() < 0 {
(-*self, "-")
} else {
(*self, "")
};
let sec = abs.tv_sec();
try!(write!(f, "{}", sign));
if abs.tv_usec() == 0 {
if abs.tv_sec() == 1 {
try!(write!(f, "{} second", sec));
} else {
try!(write!(f, "{} seconds", sec));
}
} else if abs.tv_usec() % 1000 == 0 {
try!(write!(f, "{}.{:03} seconds", sec, abs.tv_usec() / 1000));
} else {
try!(write!(f, "{}.{:06} seconds", sec, abs.tv_usec()));
}
Ok(())
}
}
#[inline]
fn div_mod_floor_64(this: i64, other: i64) -> (i64, i64) {
(div_floor_64(this, other), mod_floor_64(this, other))
}
#[inline]
fn div_floor_64(this: i64, other: i64) -> i64 {
match div_rem_64(this, other) {
(d, r) if (r > 0 && other < 0)
|| (r < 0 && other > 0) => d - 1,
(d, _) => d,
}
}
#[inline]
fn mod_floor_64(this: i64, other: i64) -> i64 {
match this % other {
r if (r > 0 && other < 0)
|| (r < 0 && other > 0) => r + other,
r => r,
}
}
#[inline]
fn div_rem_64(this: i64, other: i64) -> (i64, i64) {
(this / other, this % other)
}
#[cfg(test)]
mod test {
use super::{TimeSpec, TimeVal, TimeValLike};
#[test]
pub fn test_timespec() {
assert!(TimeSpec::seconds(1) != TimeSpec::zero());
assert_eq!(TimeSpec::seconds(1) + TimeSpec::seconds(2),
TimeSpec::seconds(3));
assert_eq!(TimeSpec::minutes(3) + TimeSpec::seconds(2),
TimeSpec::seconds(182));
}
#[test]
pub fn test_timespec_neg() {
let a = TimeSpec::seconds(1) + TimeSpec::nanoseconds(123);
let b = TimeSpec::seconds(-1) + TimeSpec::nanoseconds(-123);
assert_eq!(a, -b);
}
#[test]
pub fn test_timespec_ord() {
assert!(TimeSpec::seconds(1) == TimeSpec::nanoseconds(1_000_000_000));
assert!(TimeSpec::seconds(1) < TimeSpec::nanoseconds(1_000_000_001));
assert!(TimeSpec::seconds(1) > TimeSpec::nanoseconds(999_999_999));
assert!(TimeSpec::seconds(-1) < TimeSpec::nanoseconds(-999_999_999));
assert!(TimeSpec::seconds(-1) > TimeSpec::nanoseconds(-1_000_000_001));
}
#[test]
pub fn test_timespec_fmt() {
assert_eq!(TimeSpec::zero().to_string(), "0 seconds");
assert_eq!(TimeSpec::seconds(42).to_string(), "42 seconds");
assert_eq!(TimeSpec::milliseconds(42).to_string(), "0.042 seconds");
assert_eq!(TimeSpec::microseconds(42).to_string(), "0.000042 seconds");
assert_eq!(TimeSpec::nanoseconds(42).to_string(), "0.000000042 seconds");
assert_eq!(TimeSpec::seconds(-86401).to_string(), "-86401 seconds");
}
#[test]
pub fn test_timeval() {
assert!(TimeVal::seconds(1) != TimeVal::zero());
assert_eq!(TimeVal::seconds(1) + TimeVal::seconds(2),
TimeVal::seconds(3));
assert_eq!(TimeVal::minutes(3) + TimeVal::seconds(2),
TimeVal::seconds(182));
}
#[test]
pub fn test_timeval_ord() {
assert!(TimeVal::seconds(1) == TimeVal::microseconds(1_000_000));
assert!(TimeVal::seconds(1) < TimeVal::microseconds(1_000_001));
assert!(TimeVal::seconds(1) > TimeVal::microseconds(999_999));
assert!(TimeVal::seconds(-1) < TimeVal::microseconds(-999_999));
assert!(TimeVal::seconds(-1) > TimeVal::microseconds(-1_000_001));
}
#[test]
pub fn test_timeval_neg() {
let a = TimeVal::seconds(1) + TimeVal::microseconds(123);
let b = TimeVal::seconds(-1) + TimeVal::microseconds(-123);
assert_eq!(a, -b);
}
#[test]
pub fn test_timeval_fmt() {
assert_eq!(TimeVal::zero().to_string(), "0 seconds");
assert_eq!(TimeVal::seconds(42).to_string(), "42 seconds");
assert_eq!(TimeVal::milliseconds(42).to_string(), "0.042 seconds");
assert_eq!(TimeVal::microseconds(42).to_string(), "0.000042 seconds");
assert_eq!(TimeVal::nanoseconds(1402).to_string(), "0.000001 seconds");
assert_eq!(TimeVal::seconds(-86401).to_string(), "-86401 seconds");
}
}
|