rust/src/libstd/time.rs

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import libc::{c_char, c_int, c_long, size_t, time_t};
import io::{reader, reader_util};
import result::{result, ok, err, extensions};
export
timespec,
get_time,
precise_time_ns,
precise_time_s,
tm,
empty_tm,
now,
at,
now_utc,
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at_utc,
strptime;
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#[abi = "cdecl"]
native mod rustrt {
fn get_time(&sec: i64, &nsec: i32);
fn precise_time_ns(&ns: u64);
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// FIXME: The i64 values can be passed by-val when #2064 is fixed.
fn rust_gmtime(&&sec: i64, &&nsec: i32, &&result: tm);
fn rust_localtime(&&sec: i64, &&nsec: i32, &&result: tm);
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fn rust_timegm(&&tm: tm, &sec: i64);
fn rust_mktime(&&tm: tm, &sec: i64);
}
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#[doc = "A record specifying a time value in seconds and microseconds."]
type timespec = {sec: i64, nsec: i32};
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#[doc = "
Returns the current time as a `timespec` containing the seconds and
microseconds since 1970-01-01T00:00:00Z.
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"]
fn get_time() -> timespec {
let mut sec = 0i64;
let mut nsec = 0i32;
rustrt::get_time(sec, nsec);
ret {sec: sec, nsec: nsec};
}
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#[doc = "
Returns the current value of a high-resolution performance counter
in nanoseconds since an unspecified epoch.
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"]
fn precise_time_ns() -> u64 {
let mut ns = 0u64;
rustrt::precise_time_ns(ns);
ns
}
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#[doc = "
Returns the current value of a high-resolution performance counter
in seconds since an unspecified epoch.
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"]
fn precise_time_s() -> float {
ret (precise_time_ns() as float) / 1000000000.;
}
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type tm = {
tm_sec: i32, // seconds after the minute [0-60]
tm_min: i32, // minutes after the hour [0-59]
tm_hour: i32, // hours after midnight [0-23]
tm_mday: i32, // days of the month [1-31]
tm_mon: i32, // months since January [0-11]
tm_year: i32, // years since 1900
tm_wday: i32, // days since Sunday [0-6]
tm_yday: i32, // days since January 1 [0-365]
tm_isdst: i32, // Daylight Savings Time flag
tm_gmtoff: i32, // offset from UTC in seconds
tm_zone: str, // timezone abbreviation
tm_nsec: i32, // nanoseconds
};
fn empty_tm() -> tm {
{
tm_sec: 0_i32,
tm_min: 0_i32,
tm_hour: 0_i32,
tm_mday: 0_i32,
tm_mon: 0_i32,
tm_year: 0_i32,
tm_wday: 0_i32,
tm_yday: 0_i32,
tm_isdst: 0_i32,
tm_gmtoff: 0_i32,
tm_zone: "",
tm_nsec: 0_i32,
}
}
#[doc = "Returns the specified time in UTC"]
fn at_utc(clock: timespec) -> tm {
let mut {sec, nsec} = clock;
let mut tm = empty_tm();
rustrt::rust_gmtime(sec, nsec, tm);
tm
}
#[doc = "Returns the current time in UTC"]
fn now_utc() -> tm {
at_utc(get_time())
}
#[doc = "Returns the specified time in the local timezone"]
fn at(clock: timespec) -> tm {
let mut {sec, nsec} = clock;
let mut tm = empty_tm();
rustrt::rust_localtime(sec, nsec, tm);
tm
}
#[doc = "Returns the current time in the local timezone"]
fn now() -> tm {
at(get_time())
}
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#[doc = "Parses the time from the string according to the format string."]
fn strptime(s: str, format: str) -> result<tm, str> {
type tm_mut = {
mut tm_sec: i32,
mut tm_min: i32,
mut tm_hour: i32,
mut tm_mday: i32,
mut tm_mon: i32,
mut tm_year: i32,
mut tm_wday: i32,
mut tm_yday: i32,
mut tm_isdst: i32,
mut tm_gmtoff: i32,
mut tm_zone: str,
mut tm_nsec: i32,
};
fn match_str(s: str, pos: uint, needle: str) -> bool {
let mut i = pos;
for str::each(needle) {|ch|
if s[i] != ch {
ret false;
}
i += 1u;
}
ret true;
}
fn match_strs(s: str, pos: uint, strs: [(str, i32)])
-> option<(i32, uint)> {
let mut i = 0u;
let len = vec::len(strs);
while i < len {
let (needle, value) = strs[i];
if match_str(s, pos, needle) {
ret some((value, pos + str::len(needle)));
}
i += 1u;
}
none
}
fn match_digits(s: str, pos: uint, digits: uint, ws: bool)
-> option<(i32, uint)> {
let mut pos = pos;
let mut value = 0_i32;
let mut i = 0u;
while i < digits {
let {ch, next} = str::char_range_at(s, pos);
pos = next;
alt ch {
'0' to '9' {
value = value * 10_i32 + (ch as i32 - '0' as i32);
}
' ' if ws { }
_ { ret none; }
}
i += 1u;
}
some((value, pos))
}
fn parse_char(s: str, pos: uint, c: char) -> result<uint, str> {
let {ch, next} = str::char_range_at(s, pos);
if c == ch {
ok(next)
} else {
err(#fmt("Expected %?, found %?",
str::from_char(c),
str::from_char(ch)))
}
}
fn parse_type(s: str, pos: uint, ch: char, tm: tm_mut)
-> result<uint, str> {
alt ch {
'A' {
alt match_strs(s, pos, [
("Sunday", 0_i32),
("Monday", 1_i32),
("Tuesday", 2_i32),
("Wednesday", 3_i32),
("Thursday", 4_i32),
("Friday", 5_i32),
("Saturday", 6_i32)
]) {
some(item) { let (v, pos) = item; tm.tm_wday = v; ok(pos) }
none { err("Invalid day") }
}
}
'a' {
alt match_strs(s, pos, [
("Sun", 0_i32),
("Mon", 1_i32),
("Tue", 2_i32),
("Wed", 3_i32),
("Thu", 4_i32),
("Fri", 5_i32),
("Sat", 6_i32)
]) {
some(item) { let (v, pos) = item; tm.tm_wday = v; ok(pos) }
none { err("Invalid day") }
}
}
'B' {
alt match_strs(s, pos, [
("January", 0_i32),
("February", 1_i32),
("March", 2_i32),
("April", 3_i32),
("May", 4_i32),
("June", 5_i32),
("July", 6_i32),
("August", 7_i32),
("September", 8_i32),
("October", 9_i32),
("November", 10_i32),
("December", 11_i32)
]) {
some(item) { let (v, pos) = item; tm.tm_mon = v; ok(pos) }
none { err("Invalid month") }
}
}
'b' | 'h' {
alt match_strs(s, pos, [
("Jan", 0_i32),
("Feb", 1_i32),
("Mar", 2_i32),
("Apr", 3_i32),
("May", 4_i32),
("Jun", 5_i32),
("Jul", 6_i32),
("Aug", 7_i32),
("Sep", 8_i32),
("Oct", 9_i32),
("Nov", 10_i32),
("Dec", 11_i32)
]) {
some(item) { let (v, pos) = item; tm.tm_mon = v; ok(pos) }
none { err("Invalid month") }
}
}
'C' {
alt match_digits(s, pos, 2u, false) {
some(item) {
let (v, pos) = item;
tm.tm_year += (v * 100_i32) - 1900_i32;
ok(pos)
}
none { err("Invalid year") }
}
}
'c' {
parse_type(s, pos, 'a', tm)
.chain { |pos| parse_char(s, pos, ' ') }
.chain { |pos| parse_type(s, pos, 'b', tm) }
.chain { |pos| parse_char(s, pos, ' ') }
.chain { |pos| parse_type(s, pos, 'e', tm) }
.chain { |pos| parse_char(s, pos, ' ') }
.chain { |pos| parse_type(s, pos, 'T', tm) }
.chain { |pos| parse_char(s, pos, ' ') }
.chain { |pos| parse_type(s, pos, 'Y', tm) }
}
'D' | 'x' {
parse_type(s, pos, 'm', tm)
.chain { |pos| parse_char(s, pos, '/') }
.chain { |pos| parse_type(s, pos, 'd', tm) }
.chain { |pos| parse_char(s, pos, '/') }
.chain { |pos| parse_type(s, pos, 'y', tm) }
}
'd' {
alt match_digits(s, pos, 2u, false) {
some(item) { let (v, pos) = item; tm.tm_mday = v; ok(pos) }
none { err("Invalid day of the month") }
}
}
'e' {
alt match_digits(s, pos, 2u, true) {
some(item) { let (v, pos) = item; tm.tm_mday = v; ok(pos) }
none { err("Invalid day of the month") }
}
}
'F' {
parse_type(s, pos, 'Y', tm)
.chain { |pos| parse_char(s, pos, '-') }
.chain { |pos| parse_type(s, pos, 'm', tm) }
.chain { |pos| parse_char(s, pos, '-') }
.chain { |pos| parse_type(s, pos, 'd', tm) }
}
'H' {
// FIXME: range check. (#2350 -- same issue for all FIXMEs in this
// file.)
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alt match_digits(s, pos, 2u, false) {
some(item) { let (v, pos) = item; tm.tm_hour = v; ok(pos) }
none { err("Invalid hour") }
}
}
'I' {
// FIXME: range check.
alt match_digits(s, pos, 2u, false) {
some(item) {
let (v, pos) = item;
tm.tm_hour = if v == 12_i32 { 0_i32 } else { v };
ok(pos)
}
none { err("Invalid hour") }
}
}
'j' {
// FIXME: range check.
alt match_digits(s, pos, 3u, false) {
some(item) {
let (v, pos) = item;
tm.tm_yday = v - 1_i32;
ok(pos)
}
none { err("Invalid year") }
}
}
'k' {
// FIXME: range check.
alt match_digits(s, pos, 2u, true) {
some(item) { let (v, pos) = item; tm.tm_hour = v; ok(pos) }
none { err("Invalid hour") }
}
}
'l' {
// FIXME: range check.
alt match_digits(s, pos, 2u, true) {
some(item) {
let (v, pos) = item;
tm.tm_hour = if v == 12_i32 { 0_i32 } else { v };
ok(pos)
}
none { err("Invalid hour") }
}
}
'M' {
// FIXME: range check.
alt match_digits(s, pos, 2u, false) {
some(item) { let (v, pos) = item; tm.tm_min = v; ok(pos) }
none { err("Invalid minute") }
}
}
'm' {
// FIXME: range check.
alt match_digits(s, pos, 2u, false) {
some(item) {
let (v, pos) = item;
tm.tm_mon = v - 1_i32;
ok(pos)
}
none { err("Invalid month") }
}
}
'n' { parse_char(s, pos, '\n') }
'P' {
alt match_strs(s, pos, [("am", 0_i32), ("pm", 12_i32)]) {
some(item) { let (v, pos) = item; tm.tm_hour += v; ok(pos) }
none { err("Invalid hour") }
}
}
'p' {
alt match_strs(s, pos, [("AM", 0_i32), ("PM", 12_i32)]) {
some(item) { let (v, pos) = item; tm.tm_hour += v; ok(pos) }
none { err("Invalid hour") }
}
}
'R' {
parse_type(s, pos, 'H', tm)
.chain { |pos| parse_char(s, pos, ':') }
.chain { |pos| parse_type(s, pos, 'M', tm) }
}
'r' {
parse_type(s, pos, 'I', tm)
.chain { |pos| parse_char(s, pos, ':') }
.chain { |pos| parse_type(s, pos, 'M', tm) }
.chain { |pos| parse_char(s, pos, ':') }
.chain { |pos| parse_type(s, pos, 'S', tm) }
.chain { |pos| parse_char(s, pos, ' ') }
.chain { |pos| parse_type(s, pos, 'p', tm) }
}
'S' {
// FIXME: range check.
alt match_digits(s, pos, 2u, false) {
some(item) {
let (v, pos) = item;
tm.tm_sec = v;
ok(pos)
}
none { err("Invalid second") }
}
}
//'s' {}
'T' | 'X' {
parse_type(s, pos, 'H', tm)
.chain { |pos| parse_char(s, pos, ':') }
.chain { |pos| parse_type(s, pos, 'M', tm) }
.chain { |pos| parse_char(s, pos, ':') }
.chain { |pos| parse_type(s, pos, 'S', tm) }
}
't' { parse_char(s, pos, '\t') }
'u' {
// FIXME: range check.
alt match_digits(s, pos, 1u, false) {
some(item) {
let (v, pos) = item;
tm.tm_wday = v;
ok(pos)
}
none { err("Invalid weekday") }
}
}
'v' {
parse_type(s, pos, 'e', tm)
.chain { |pos| parse_char(s, pos, '-') }
.chain { |pos| parse_type(s, pos, 'b', tm) }
.chain { |pos| parse_char(s, pos, '-') }
.chain { |pos| parse_type(s, pos, 'Y', tm) }
}
//'W' {}
'w' {
// FIXME: range check.
alt match_digits(s, pos, 1u, false) {
some(item) { let (v, pos) = item; tm.tm_wday = v; ok(pos) }
none { err("Invalid weekday") }
}
}
//'X' {}
//'x' {}
'Y' {
// FIXME: range check.
alt match_digits(s, pos, 4u, false) {
some(item) {
let (v, pos) = item;
tm.tm_year = v - 1900_i32;
ok(pos)
}
none { err("Invalid weekday") }
}
}
'y' {
// FIXME: range check.
alt match_digits(s, pos, 2u, false) {
some(item) {
let (v, pos) = item;
tm.tm_year = v - 1900_i32;
ok(pos)
}
none { err("Invalid weekday") }
}
}
'Z' {
if match_str(s, pos, "UTC") || match_str(s, pos, "GMT") {
tm.tm_gmtoff = 0_i32;
tm.tm_zone = "UTC";
ok(pos + 3u)
} else {
// It's odd, but to maintain compatibility with c's
// strptime we ignore the timezone.
let mut pos = pos;
let len = str::len(s);
while pos < len {
let {ch, next} = str::char_range_at(s, pos);
pos = next;
if ch == ' ' { break; }
}
ok(pos)
}
}
'z' {
let {ch, next} = str::char_range_at(s, pos);
if ch == '+' || ch == '-' {
alt match_digits(s, next, 4u, false) {
some(item) {
let (v, pos) = item;
if v == 0_i32 {
tm.tm_gmtoff = 0_i32;
tm.tm_zone = "UTC";
}
ok(pos)
}
none { err("Invalid zone offset") }
}
} else {
err("Invalid zone offset")
}
}
'%' { parse_char(s, pos, '%') }
ch {
err(#fmt("unknown formatting type: %?", str::from_char(ch)))
}
}
}
io::with_str_reader(format) { |rdr|
let tm = {
mut tm_sec: 0_i32,
mut tm_min: 0_i32,
mut tm_hour: 0_i32,
mut tm_mday: 0_i32,
mut tm_mon: 0_i32,
mut tm_year: 0_i32,
mut tm_wday: 0_i32,
mut tm_yday: 0_i32,
mut tm_isdst: 0_i32,
mut tm_gmtoff: 0_i32,
mut tm_zone: "",
mut tm_nsec: 0_i32,
};
let mut pos = 0u;
let len = str::len(s);
let mut result = err("Invalid time");
while !rdr.eof() && pos < len {
let {ch, next} = str::char_range_at(s, pos);
alt rdr.read_char() {
'%' {
alt parse_type(s, pos, rdr.read_char(), tm) {
ok(next) { pos = next; }
err(e) { result = err(e); break; }
}
}
c {
if c != ch { break }
pos = next;
}
}
}
if pos == len && rdr.eof() {
ok({
tm_sec: tm.tm_sec,
tm_min: tm.tm_min,
tm_hour: tm.tm_hour,
tm_mday: tm.tm_mday,
tm_mon: tm.tm_mon,
tm_year: tm.tm_year,
tm_wday: tm.tm_wday,
tm_yday: tm.tm_yday,
tm_isdst: tm.tm_isdst,
tm_gmtoff: tm.tm_gmtoff,
tm_zone: tm.tm_zone,
tm_nsec: tm.tm_nsec,
})
} else { result }
}
}
fn strftime(format: str, tm: tm) -> str {
fn parse_type(ch: char, tm: tm) -> str {
//FIXME: Implement missing types.
alt check ch {
'A' {
alt check tm.tm_wday as int {
0 { "Sunday" }
1 { "Monday" }
2 { "Tuesday" }
3 { "Wednesday" }
4 { "Thursday" }
5 { "Friday" }
6 { "Saturday" }
}
}
'a' {
alt check tm.tm_wday as int {
0 { "Sun" }
1 { "Mon" }
2 { "Tue" }
3 { "Wed" }
4 { "Thu" }
5 { "Fri" }
6 { "Sat" }
}
}
'B' {
alt check tm.tm_mon as int {
0 { "January" }
1 { "February" }
2 { "March" }
3 { "April" }
4 { "May" }
5 { "June" }
6 { "July" }
7 { "August" }
8 { "September" }
9 { "October" }
10 { "November" }
11 { "December" }
}
}
'b' | 'h' {
alt check tm.tm_mon as int {
0 { "Jan" }
1 { "Feb" }
2 { "Mar" }
3 { "Apr" }
4 { "May" }
5 { "Jun" }
6 { "Jul" }
7 { "Aug" }
8 { "Sep" }
9 { "Oct" }
10 { "Nov" }
11 { "Dec" }
}
}
'C' { #fmt("%02d", (tm.tm_year as int + 1900) / 100) }
'c' {
#fmt("%s %s %s %s %s",
parse_type('a', tm),
parse_type('b', tm),
parse_type('e', tm),
parse_type('T', tm),
parse_type('Y', tm))
}
'D' | 'x' {
#fmt("%s/%s/%s",
parse_type('m', tm),
parse_type('d', tm),
parse_type('y', tm))
}
'd' { #fmt("%02d", tm.tm_mday as int) }
'e' { #fmt("%2d", tm.tm_mday as int) }
'F' {
#fmt("%s-%s-%s",
parse_type('Y', tm),
parse_type('m', tm),
parse_type('d', tm))
}
//'G' {}
//'g' {}
'H' { #fmt("%02d", tm.tm_hour as int) }
'I' {
let mut h = tm.tm_hour as int;
if h == 0 { h = 12 }
if h > 12 { h -= 12 }
#fmt("%02d", h)
}
'j' { #fmt("%03d", tm.tm_yday as int + 1) }
'k' { #fmt("%2d", tm.tm_hour as int) }
'l' {
let mut h = tm.tm_hour as int;
if h == 0 { h = 12 }
if h > 12 { h -= 12 }
#fmt("%2d", h)
}
'M' { #fmt("%02d", tm.tm_min as int) }
'm' { #fmt("%02d", tm.tm_mon as int + 1) }
'n' { "\n" }
'P' { if tm.tm_hour as int < 12 { "am" } else { "pm" } }
'p' { if tm.tm_hour as int < 12 { "AM" } else { "PM" } }
'R' {
#fmt("%s:%s",
parse_type('H', tm),
parse_type('M', tm))
}
'r' {
#fmt("%s:%s:%s %s",
parse_type('I', tm),
parse_type('M', tm),
parse_type('S', tm),
parse_type('p', tm))
}
'S' { #fmt("%02d", tm.tm_sec as int) }
's' { #fmt("%d", tm.to_timespec().sec as int) }
'T' | 'X' {
#fmt("%s:%s:%s",
parse_type('H', tm),
parse_type('M', tm),
parse_type('S', tm))
}
't' { "\t" }
//'U' {}
'u' {
let i = tm.tm_wday as int;
int::str(if i == 0 { 7 } else { i })
}
//'V' {}
'v' {
#fmt("%s-%s-%s",
parse_type('e', tm),
parse_type('b', tm),
parse_type('Y', tm))
}
//'W' {}
'w' { int::str(tm.tm_wday as int) }
//'X' {}
//'x' {}
'Y' { int::str(tm.tm_year as int + 1900) }
'y' { #fmt("%02d", (tm.tm_year as int + 1900) % 100) }
'Z' { tm.tm_zone }
'z' {
let sign = if tm.tm_gmtoff > 0_i32 { '+' } else { '-' };
let mut m = i32::abs(tm.tm_gmtoff) / 60_i32;
let h = m / 60_i32;
m -= h * 60_i32;
#fmt("%c%02d%02d", sign, h as int, m as int)
}
//'+' {}
'%' { "%" }
}
}
let mut buf = "";
io::with_str_reader(format) { |rdr|
while !rdr.eof() {
alt rdr.read_char() {
'%' { buf += parse_type(rdr.read_char(), tm); }
ch { str::push_char(buf, ch); }
}
}
}
buf
}
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impl tm for tm {
#[doc = "Convert time to the seconds from January 1, 1970"]
fn to_timespec() -> timespec {
let mut sec = 0i64;
if self.tm_gmtoff == 0_i32 {
rustrt::rust_timegm(self, sec);
} else {
rustrt::rust_mktime(self, sec);
}
{ sec: sec, nsec: self.tm_nsec }
}
#[doc = "Convert time to the local timezone"]
fn to_local() -> tm {
at(self.to_timespec())
}
#[doc = "Convert time to the UTC"]
fn to_utc() -> tm {
at_utc(self.to_timespec())
}
#[doc = "
Return a string of the current time in the form
\"Thu Jan 1 00:00:00 1970\".
"]
fn ctime() -> str { self.strftime("%c") }
#[doc = "Formats the time according to the format string."]
fn strftime(format: str) -> str { strftime(format, self) }
#[doc = "
Returns a time string formatted according to RFC 822.
local: \"Thu, 22 Mar 2012 07:53:18 PST\"
utc: \"Thu, 22 Mar 2012 14:53:18 UTC\"
"]
fn rfc822() -> str {
if self.tm_gmtoff == 0_i32 {
self.strftime("%a, %d %b %Y %T GMT")
} else {
self.strftime("%a, %d %b %Y %T %Z")
}
}
#[doc = "
Returns a time string formatted according to RFC 822 with Zulu time.
local: \"Thu, 22 Mar 2012 07:53:18 -0700\"
utc: \"Thu, 22 Mar 2012 14:53:18 -0000\"
"]
fn rfc822z() -> str {
self.strftime("%a, %d %b %Y %T %z")
}
#[doc = "
Returns a time string formatted according to ISO 8601.
local: \"2012-02-22T07:53:18-07:00\"
utc: \"2012-02-22T14:53:18Z\"
"]
fn rfc3339() -> str {
if self.tm_gmtoff == 0_i32 {
self.strftime("%Y-%m-%dT%H:%M:%SZ")
} else {
let s = self.strftime("%Y-%m-%dT%H:%M:%S");
let sign = if self.tm_gmtoff > 0_i32 { '+' } else { '-' };
let mut m = i32::abs(self.tm_gmtoff) / 60_i32;
let h = m / 60_i32;
m -= h * 60_i32;
s + #fmt("%c%02d:%02d", sign, h as int, m as int)
}
}
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}
#[cfg(test)]
mod tests {
import task;
#[test]
fn test_get_time() {
const some_recent_date: i64 = 1325376000i64; // 2012-01-01T00:00:00Z
const some_future_date: i64 = 1577836800i64; // 2020-01-01T00:00:00Z
let tv1 = get_time();
log(debug, "tv1=" + uint::str(tv1.sec as uint) + " sec + "
+ uint::str(tv1.nsec as uint) + " nsec");
assert tv1.sec > some_recent_date;
assert tv1.nsec < 1000000000i32;
let tv2 = get_time();
log(debug, "tv2=" + uint::str(tv2.sec as uint) + " sec + "
+ uint::str(tv2.nsec as uint) + " nsec");
assert tv2.sec >= tv1.sec;
assert tv2.sec < some_future_date;
assert tv2.nsec < 1000000000i32;
if tv2.sec == tv1.sec {
assert tv2.nsec >= tv1.nsec;
}
}
#[test]
fn test_precise_time() {
let s0 = precise_time_s();
let ns1 = precise_time_ns();
log(debug, "s0=" + float::to_str(s0, 9u) + " sec");
assert s0 > 0.;
let ns0 = (s0 * 1000000000.) as u64;
log(debug, "ns0=" + u64::str(ns0) + " ns");
log(debug, "ns1=" + u64::str(ns1) + " ns");
assert ns1 >= ns0;
let ns2 = precise_time_ns();
log(debug, "ns2=" + u64::str(ns2) + " ns");
assert ns2 >= ns1;
}
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#[test]
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fn test_at_utc() {
os::setenv("TZ", "America/Los_Angeles");
let time = { sec: 1234567890_i64, nsec: 54321_i32 };
let utc = at_utc(time);
assert utc.tm_sec == 30_i32;
assert utc.tm_min == 31_i32;
assert utc.tm_hour == 23_i32;
assert utc.tm_mday == 13_i32;
assert utc.tm_mon == 1_i32;
assert utc.tm_year == 109_i32;
assert utc.tm_wday == 5_i32;
assert utc.tm_yday == 43_i32;
assert utc.tm_isdst == 0_i32;
assert utc.tm_gmtoff == 0_i32;
assert utc.tm_zone == "UTC";
assert utc.tm_nsec == 54321_i32;
}
#[test]
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fn test_at() {
os::setenv("TZ", "America/Los_Angeles");
let time = { sec: 1234567890_i64, nsec: 54321_i32 };
let local = at(time);
assert local.tm_sec == 30_i32;
assert local.tm_min == 31_i32;
assert local.tm_hour == 15_i32;
assert local.tm_mday == 13_i32;
assert local.tm_mon == 1_i32;
assert local.tm_year == 109_i32;
assert local.tm_wday == 5_i32;
assert local.tm_yday == 43_i32;
assert local.tm_isdst == 0_i32;
assert local.tm_gmtoff == -28800_i32;
// FIXME: We should probably standardize on the timezone
// abbreviation.
let zone = local.tm_zone;
assert zone == "PST" || zone == "Pacific Standard Time";
assert local.tm_nsec == 54321_i32;
}
#[test]
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fn test_to_timespec() {
os::setenv("TZ", "America/Los_Angeles");
let time = { sec: 1234567890_i64, nsec: 54321_i32 };
let utc = at_utc(time);
assert utc.to_timespec() == time;
assert utc.to_local().to_timespec() == time;
}
#[test]
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fn test_conversions() {
os::setenv("TZ", "America/Los_Angeles");
let time = { sec: 1234567890_i64, nsec: 54321_i32 };
let utc = at_utc(time);
let local = at(time);
assert local.to_local() == local;
assert local.to_utc() == utc;
assert local.to_utc().to_local() == local;
assert utc.to_utc() == utc;
assert utc.to_local() == local;
assert utc.to_local().to_utc() == utc;
}
#[test]
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fn test_strptime() {
os::setenv("TZ", "America/Los_Angeles");
alt strptime("", "") {
ok(tm) {
assert tm.tm_sec == 0_i32;
assert tm.tm_min == 0_i32;
assert tm.tm_hour == 0_i32;
assert tm.tm_mday == 0_i32;
assert tm.tm_mon == 0_i32;
assert tm.tm_year == 0_i32;
assert tm.tm_wday == 0_i32;
assert tm.tm_isdst== 0_i32;
assert tm.tm_gmtoff == 0_i32;
assert tm.tm_zone == "";
assert tm.tm_nsec == 0_i32;
}
err(_) {}
}
let format = "%a %b %e %T %Y";
assert strptime("", format) == err("Invalid time");
assert strptime("Fri Feb 13 15:31:30", format) == err("Invalid time");
alt strptime("Fri Feb 13 15:31:30 2009", format) {
err(e) { fail e }
ok(tm) {
assert tm.tm_sec == 30_i32;
assert tm.tm_min == 31_i32;
assert tm.tm_hour == 15_i32;
assert tm.tm_mday == 13_i32;
assert tm.tm_mon == 1_i32;
assert tm.tm_year == 109_i32;
assert tm.tm_wday == 5_i32;
assert tm.tm_yday == 0_i32;
assert tm.tm_isdst == 0_i32;
assert tm.tm_gmtoff == 0_i32;
assert tm.tm_zone == "";
assert tm.tm_nsec == 0_i32;
}
}
fn test(s: str, format: str) -> bool {
alt strptime(s, format) {
ok(tm) { tm.strftime(format) == s }
err(e) { fail e }
}
}
[
"Sunday",
"Monday",
"Tuesday",
"Wednesday",
"Thursday",
"Friday",
"Saturday"
].iter { |day| assert test(day, "%A"); }
[
"Sun",
"Mon",
"Tue",
"Wed",
"Thu",
"Fri",
"Sat"
].iter { |day| assert test(day, "%a"); }
[
"January",
"February",
"March",
"April",
"May",
"June",
"July",
"August",
"September",
"October",
"November",
"December"
].iter { |day| assert test(day, "%B"); }
[
"Jan",
"Feb",
"Mar",
"Apr",
"May",
"Jun",
"Jul",
"Aug",
"Sep",
"Oct",
"Nov",
"Dec"
].iter { |day| assert test(day, "%b"); }
assert test("19", "%C");
assert test("Fri Feb 13 23:31:30 2009", "%c");
assert test("02/13/09", "%D");
assert test("03", "%d");
assert test("13", "%d");
assert test(" 3", "%e");
assert test("13", "%e");
assert test("2009-02-13", "%F");
assert test("03", "%H");
assert test("13", "%H");
assert test("03", "%I"); // FIXME: flesh out
assert test("11", "%I"); // FIXME: flesh out
assert test("044", "%j");
assert test(" 3", "%k");
assert test("13", "%k");
assert test(" 1", "%l");
assert test("11", "%l");
assert test("03", "%M");
assert test("13", "%M");
assert test("\n", "%n");
assert test("am", "%P");
assert test("pm", "%P");
assert test("AM", "%p");
assert test("PM", "%p");
assert test("23:31", "%R");
assert test("11:31:30 AM", "%r");
assert test("11:31:30 PM", "%r");
assert test("03", "%S");
assert test("13", "%S");
assert test("15:31:30", "%T");
assert test("\t", "%t");
assert test("1", "%u");
assert test("7", "%u");
assert test("13-Feb-2009", "%v");
assert test("0", "%w");
assert test("6", "%w");
assert test("2009", "%Y");
assert test("09", "%y");
assert strptime("UTC", "%Z").get().tm_zone == "UTC";
assert strptime("PST", "%Z").get().tm_zone == "";
assert strptime("-0000", "%z").get().tm_gmtoff == 0_i32;
assert strptime("-0800", "%z").get().tm_gmtoff == 0_i32;
assert test("%", "%%");
}
#[test]
fn test_ctime() {
os::setenv("TZ", "America/Los_Angeles");
let time = { sec: 1234567890_i64, nsec: 54321_i32 };
let utc = at_utc(time);
let local = at(time);
assert utc.ctime() == "Fri Feb 13 23:31:30 2009";
assert local.ctime() == "Fri Feb 13 15:31:30 2009";
}
#[test]
fn test_strftime() {
os::setenv("TZ", "America/Los_Angeles");
let time = { sec: 1234567890_i64, nsec: 54321_i32 };
let utc = at_utc(time);
let local = at(time);
assert local.strftime("") == "";
assert local.strftime("%A") == "Friday";
assert local.strftime("%a") == "Fri";
assert local.strftime("%B") == "February";
assert local.strftime("%b") == "Feb";
assert local.strftime("%C") == "20";
assert local.strftime("%c") == "Fri Feb 13 15:31:30 2009";
assert local.strftime("%D") == "02/13/09";
assert local.strftime("%d") == "13";
assert local.strftime("%e") == "13";
assert local.strftime("%F") == "2009-02-13";
// assert local.strftime("%G") == "2009";
// assert local.strftime("%g") == "09";
assert local.strftime("%H") == "15";
assert local.strftime("%I") == "03";
assert local.strftime("%j") == "044";
assert local.strftime("%k") == "15";
assert local.strftime("%l") == " 3";
assert local.strftime("%M") == "31";
assert local.strftime("%m") == "02";
assert local.strftime("%n") == "\n";
assert local.strftime("%P") == "pm";
assert local.strftime("%p") == "PM";
assert local.strftime("%R") == "15:31";
assert local.strftime("%r") == "03:31:30 PM";
assert local.strftime("%S") == "30";
assert local.strftime("%s") == "1234567890";
assert local.strftime("%T") == "15:31:30";
assert local.strftime("%t") == "\t";
// assert local.strftime("%U") == "06";
assert local.strftime("%u") == "5";
// assert local.strftime("%V") == "07";
assert local.strftime("%v") == "13-Feb-2009";
// assert local.strftime("%W") == "06";
assert local.strftime("%w") == "5";
// handle "%X"
// handle "%x"
assert local.strftime("%Y") == "2009";
assert local.strftime("%y") == "09";
// FIXME: We should probably standardize on the timezone
// abbreviation.
let zone = local.strftime("%Z");
assert zone == "PST" || zone == "Pacific Standard Time";
assert local.strftime("%z") == "-0800";
assert local.strftime("%%") == "%";
// FIXME: We should probably standardize on the timezone
// abbreviation.
let rfc822 = local.rfc822();
let prefix = "Fri, 13 Feb 2009 15:31:30 ";
assert rfc822 == prefix + "PST" ||
rfc822 == prefix + "Pacific Standard Time";
assert local.ctime() == "Fri Feb 13 15:31:30 2009";
assert local.rfc822z() == "Fri, 13 Feb 2009 15:31:30 -0800";
assert local.rfc3339() == "2009-02-13T15:31:30-08:00";
assert utc.ctime() == "Fri Feb 13 23:31:30 2009";
assert utc.rfc822() == "Fri, 13 Feb 2009 23:31:30 GMT";
assert utc.rfc822z() == "Fri, 13 Feb 2009 23:31:30 -0000";
assert utc.rfc3339() == "2009-02-13T23:31:30Z";
}
}