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time: reorganize module

pull/3668/head
Alexey 2020-02-06 16:19:44 +03:00 committed by GitHub
parent d9e92a08cb
commit 65744207fc
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8 changed files with 406 additions and 404 deletions
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177
vlib/time/format.v 100644
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@ -0,0 +1,177 @@
// Copyright (c) 2019-2020 Alexander Medvednikov. All rights reserved.
// Use of this source code is governed by an MIT license
// that can be found in the LICENSE file.
module time
// format returns a date string in "YYYY-MM-DD HH:MM" format (24h).
pub fn (t Time) format() string {
return t.get_fmt_str(.hyphen, .hhmm24, .yyyymmdd)
}
// format_ss returns a date string in "YYYY-MM-DD HH:MM:SS" format (24h).
pub fn (t Time) format_ss() string {
return t.get_fmt_str(.hyphen, .hhmmss24, .yyyymmdd)
}
// hhmm returns a date string in "HH:MM" format (24h).
pub fn (t Time) hhmm() string {
return t.get_fmt_time_str(.hhmm24)
}
// hhmmss returns a date string in "HH:MM:SS" format (24h).
pub fn (t Time) hhmmss() string {
return t.get_fmt_time_str(.hhmmss24)
}
// hhmm12 returns a date string in "HH:MM" format (12h).
pub fn (t Time) hhmm12() string {
return t.get_fmt_time_str(.hhmm12)
}
// ymmdd returns a date string in "YYYY-MM-DD" format.
pub fn (t Time) ymmdd() string {
return t.get_fmt_date_str(.hyphen, .yyyymmdd)
}
// ddmmy returns a date string in "DD.MM.YYYY" format.
pub fn (t Time) ddmmy() string {
return t.get_fmt_date_str(.dot, .ddmmyyyy)
}
// md returns a date string in "MMM D" format.
pub fn (t Time) md() string {
return t.get_fmt_date_str(.space, .mmmd)
}
// clean returns a date string in a following format:
// - a date string in "HH:MM" format (24h) for current day
// - a date string in "MMM D HH:MM" format (24h) for date of current year
// - a date string formatted with format function for other dates
pub fn (t Time) clean() string {
now := time.now()
// Today
if t.month == now.month && t.year == now.year && t.day == now.day {
return t.get_fmt_time_str(.hhmm24)
}
// This year
if t.year == now.year {
return t.get_fmt_str(.space, .hhmm24, .mmmd)
}
return t.format()
}
// clean12 returns a date string in a following format:
// - a date string in "HH:MM" format (12h) for current day
// - a date string in "MMM D HH:MM" format (12h) for date of current year
// - a date string formatted with format function for other dates
pub fn (t Time) clean12() string {
now := time.now()
// Today
if t.month == now.month && t.year == now.year && t.day == now.day {
return t.get_fmt_time_str(.hhmm12)
}
// This year
if t.year == now.year {
return t.get_fmt_str(.space, .hhmm12, .mmmd)
}
return t.format()
}
// get_fmt_time_str returns a date string with specified FormatTime type.
pub fn (t Time) get_fmt_time_str(fmt_time FormatTime) string {
if fmt_time == .no_time {
return ''
}
tp := if t.hour > 11 { 'p.m.' } else { 'a.m.' }
hour := if t.hour > 12 { t.hour - 12 } else if t.hour == 0 { 12 } else { t.hour }
return match fmt_time {
.hhmm12{
'$hour:${t.minute:02d} $tp'
}
.hhmm24{
'${t.hour:02d}:${t.minute:02d}'
}
.hhmmss12{
'$hour:${t.minute:02d}:${t.second:02d} $tp'
}
.hhmmss24{
'${t.hour:02d}:${t.minute:02d}:${t.second:02d}'
}
else {
'unknown enumeration $fmt_time'}
}
}
// get_fmt_time_str returns a date string with specified
// FormatDelimiter and FormatDate type.
pub fn (t Time) get_fmt_date_str(fmt_dlmtr FormatDelimiter, fmt_date FormatDate) string {
if fmt_date == .no_date {
return ''
}
month := '${t.smonth()}'
year := t.year.str()[2..]
return match fmt_date {
.ddmmyy{
'${t.day:02d}|${t.month:02d}|$year'
}
.ddmmyyyy{
'${t.day:02d}|${t.month:02d}|${t.year}'
}
.mmddyy{
'${t.month:02d}|${t.day:02d}|$year'
}
.mmddyyyy{
'${t.month:02d}|${t.day:02d}|${t.year}'
}
.mmmd{
'$month|${t.day}'
}
.mmmdd{
'$month|${t.day:02d}'
}
.mmmddyyyy{
'$month|${t.day:02d}|${t.year}'
}
.yyyymmdd{
'${t.year}|${t.month:02d}|${t.day:02d}'
}
else {
'unknown enumeration $fmt_date'}}.replace('|', match fmt_dlmtr {
.dot{
'.'
}
.hyphen{
'-'
}
.slash{
'/'
}
.space{
' '
}
else {
'unknown enumeration $fmt_dlmtr'}})
}
// get_fmt_str returns a date string with specified FormatDelimiter,
// FormatTime type, and FormatDate type.
pub fn (t Time) get_fmt_str(fmt_dlmtr FormatDelimiter, fmt_time FormatTime, fmt_date FormatDate) string {
if fmt_date == .no_date {
if fmt_time == .no_time {
// saving one function call although it's checked in
// t.get_fmt_time_str(fmt_time) in the beginning
return ''
}
else {
return t.get_fmt_time_str(fmt_time)
}
}
else {
if fmt_time != .no_time {
return t.get_fmt_date_str(fmt_dlmtr, fmt_date) + ' ' + t.get_fmt_time_str(fmt_time)
}
else {
return t.get_fmt_date_str(fmt_dlmtr, fmt_date)
}
}
}

84
vlib/time/format_test.v 100644
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@ -0,0 +1,84 @@
import time
const (
time_to_test = time.Time{
year: 1980
month: 7
day: 11
hour: 21
minute: 23
second: 42
unix: 332198622
}
)
fn test_now_format() {
t := time.now()
u := t.unix
assert t.format() == time.unix(u).format()
}
fn test_format() {
assert '11.07.1980 21:23' == time_to_test.get_fmt_str(.dot, .hhmm24, .ddmmyyyy)
}
fn test_hhmm() {
assert '21:23' == time_to_test.hhmm()
}
fn test_hhmm12() {
assert '9:23 p.m.' == time_to_test.hhmm12()
}
fn test_hhmmss() {
assert '21:23:42' == time_to_test.hhmmss()
}
fn test_ymmdd() {
assert '1980-07-11' == time_to_test.ymmdd()
}
fn test_ddmmy() {
assert '11.07.1980' == time_to_test.ddmmy()
}
fn test_md() {
assert 'Jul 11' == time_to_test.md()
}
fn test_get_fmt_time_str() {
assert '21:23:42' == time_to_test.get_fmt_time_str(.hhmmss24)
assert '21:23' == time_to_test.get_fmt_time_str(.hhmm24)
assert '9:23:42 p.m.' == time_to_test.get_fmt_time_str(.hhmmss12)
assert '9:23 p.m.' == time_to_test.get_fmt_time_str(.hhmm12)
}
fn test_get_fmt_date_str() {
assert '11.07.1980' == time_to_test.get_fmt_date_str(.dot, .ddmmyyyy)
assert '11/07/1980' == time_to_test.get_fmt_date_str(.slash, .ddmmyyyy)
assert '11-07-1980' == time_to_test.get_fmt_date_str(.hyphen, .ddmmyyyy)
assert '11 07 1980' == time_to_test.get_fmt_date_str(.space, .ddmmyyyy)
assert '07.11.1980' == time_to_test.get_fmt_date_str(.dot, .mmddyyyy)
assert '07/11/1980' == time_to_test.get_fmt_date_str(.slash, .mmddyyyy)
assert '07-11-1980' == time_to_test.get_fmt_date_str(.hyphen, .mmddyyyy)
assert '07 11 1980' == time_to_test.get_fmt_date_str(.space, .mmddyyyy)
assert '11.07.80' == time_to_test.get_fmt_date_str(.dot, .ddmmyy)
assert '11/07/80' == time_to_test.get_fmt_date_str(.slash, .ddmmyy)
assert '11-07-80' == time_to_test.get_fmt_date_str(.hyphen, .ddmmyy)
assert '11 07 80' == time_to_test.get_fmt_date_str(.space, .ddmmyy)
assert '07.11.80' == time_to_test.get_fmt_date_str(.dot, .mmddyy)
assert '07/11/80' == time_to_test.get_fmt_date_str(.slash, .mmddyy)
assert '07-11-80' == time_to_test.get_fmt_date_str(.hyphen, .mmddyy)
assert '07 11 80' == time_to_test.get_fmt_date_str(.space, .mmddyy)
assert 'Jul 11' == time_to_test.get_fmt_date_str(.space, .mmmd)
assert 'Jul 11' == time_to_test.get_fmt_date_str(.space, .mmmdd)
assert 'Jul 11 1980' == time_to_test.get_fmt_date_str(.space, .mmmddyyyy)
assert '1980-07-11' == time_to_test.get_fmt_date_str(.hyphen, .yyyymmdd)
}
fn test_get_fmt_str() {
// Since get_fmt_time_str and get_fmt_date_str do have comprehensive
// tests I don't want to exaggerate here with all possible
// combinations.
assert '11.07.1980 21:23:42' == time_to_test.get_fmt_str(.dot, .hhmmss24, .ddmmyyyy)
}

2
vlib/time/misc/misc.v
View File

@ -6,7 +6,7 @@ import time
const ( const (
start_time_unix = time.now().unix start_time_unix = time.now().unix
) )
// random will return a random time.Time in *the past* // random returns a random time struct in *the past*.
pub fn random() time.Time { pub fn random() time.Time {
return time.unix(rand.next(start_time_unix)) return time.unix(rand.next(start_time_unix))
} }

53
vlib/time/parse.v 100644
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@ -0,0 +1,53 @@
// Copyright (c) 2019-2020 Alexander Medvednikov. All rights reserved.
// Use of this source code is governed by an MIT license
// that can be found in the LICENSE file.
module time
// parse returns time from a date string in "YYYY-MM-DD HH:MM:SS" format.
pub fn parse(s string) ?Time {
pos := s.index(' ') or {
return error('Invalid time format: $s')
}
symd := s[..pos]
ymd := symd.split('-')
if ymd.len != 3 {
return error('Invalid time format: $s')
}
shms := s[pos..]
hms := shms.split(':')
hour := hms[0][1..]
minute := hms[1]
second := hms[2]
return new_time(Time{
year: ymd[0].int()
month: ymd[1].int()
day: ymd[2].int()
hour: hour.int()
minute: minute.int()
second: second.int()
})
}
// parse_rfc2822 returns time from a date string in RFC 2822 datetime format.
pub fn parse_rfc2822(s string) ?Time {
fields := s.split(' ')
if fields.len < 5 {
return error('Invalid time format: $s')
}
pos := months_string.index(fields[2]) or {
return error('Invalid time format: $s')
}
mm := pos / 3 + 1
mut tmstr := byteptr(0)
unsafe { tmstr = malloc(s.len * 2) }
count := C.sprintf(charptr(tmstr), '%s-%02d-%s %s'.str, fields[3].str, mm,
fields[1].str, fields[4].str)
t := parse(tos(tmstr, count)) or {
// FIXME Remove this when optional forwarding is fixed.
return error('Invalid time format: $s')
}
return t
}

46
vlib/time/parse_test.v 100644
View File

@ -0,0 +1,46 @@
import time
fn test_parse() {
s := '2018-01-27 12:48:34'
t := time.parse(s) or {
assert false
return
}
assert t.year == 2018 && t.month == 1 && t.day == 27 && t.hour == 12 && t.minute == 48 && t.second == 34
assert t.unix == 1517057314
}
fn test_parse_invalid() {
s := 'Invalid time string'
t := time.parse(s) or {
assert true
return
}
assert false
}
fn test_parse_rfc2822() {
s1 := 'Thu, 12 Dec 2019 06:07:45 GMT'
t1 := time.parse_rfc2822(s1) or {
assert false
return
}
assert t1.year == 2019 && t1.month == 12 && t1.day == 12 && t1.hour == 6 && t1.minute == 7 && t1.second == 45
assert t1.unix == 1576130865
s2 := 'Thu 12 Dec 2019 06:07:45 +0800'
t2 := time.parse_rfc2822(s2) or {
assert false
return
}
assert t2.year == 2019 && t2.month == 12 && t2.day == 12 && t2.hour == 6 && t2.minute == 7 && t2.second == 45
assert t2.unix == 1576130865
}
fn test_parse_rfc2822_invalid() {
s3 := 'Thu 12 Foo 2019 06:07:45 +0800'
t3 := time.parse_rfc2822(s3) or {
assert true
return
}
assert false
}

323
vlib/time/time.v
View File

@ -3,6 +3,8 @@
// that can be found in the LICENSE file. // that can be found in the LICENSE file.
module time module time
#include <time.h>
const ( const (
days_string = 'MonTueWedThuFriSatSun' days_string = 'MonTueWedThuFriSatSun'
month_days = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31] month_days = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31]
@ -21,7 +23,6 @@ const (
days_before = [0, 31, 31 + 28, 31 + 28 + 31, 31 + 28 + 31 + 30, 31 + 28 + 31 + 30 + 31, 31 + 28 + 31 + 30 + 31 + 30, 31 + 28 + 31 + 30 + 31 + 30 + 31, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31 + 30, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31 + 30 + 31, ] days_before = [0, 31, 31 + 28, 31 + 28 + 31, 31 + 28 + 31 + 30, 31 + 28 + 31 + 30 + 31, 31 + 28 + 31 + 30 + 31 + 30, 31 + 28 + 31 + 30 + 31 + 30 + 31, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31 + 30, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31 + 30 + 31, ]
) )
#include <time.h>
pub struct Time { pub struct Time {
pub: pub:
year int year int
@ -60,14 +61,18 @@ pub enum FormatDelimiter {
space space
} }
fn C.localtime(int) &C.tm
pub struct C.time_t {} pub struct C.time_t {}
pub struct C.timeval {
tv_sec u64
tv_usec u64
}
fn C.localtime(int) &C.tm
fn C.time(int) C.time_t fn C.time(int) C.time_t
// now returns current local time.
pub fn now() Time { pub fn now() Time {
t := C.time(0) t := C.time(0)
mut now := &C.tm(0) mut now := &C.tm(0)
@ -75,155 +80,13 @@ pub fn now() Time {
return convert_ctime(now) return convert_ctime(now)
} }
// format_ss returns a string for t in a given format YYYY-MM-DD HH:MM:SS in // smonth returns month name.
// 24h notation
// @param
// @return string
// @example 1980-07-11 21:23:42
pub fn (t Time) format_ss() string {
return t.get_fmt_str(.hyphen, .hhmmss24, .yyyymmdd)
}
// format_ss returns a string for t in a given format YYYY-MM-DD HH:MM in 24h
// notation
// @param
// @return string
// @example 1980-07-11 21:23
pub fn (t Time) format() string {
return t.get_fmt_str(.hyphen, .hhmm24, .yyyymmdd)
}
pub fn (t Time) smonth() string { pub fn (t Time) smonth() string {
i := t.month - 1 i := t.month - 1
return months_string[i * 3..(i + 1) * 3] return months_string[i * 3..(i + 1) * 3]
} }
// hhmm returns a string for t in the given format HH:MM in 24h notation // new_time returns a time struct with calculated Unix time.
// @example 21:04
pub fn (t Time) hhmm() string {
return t.get_fmt_time_str(.hhmm24)
}
/*
fn (t Time) hhmm_tmp() string {
return '${t.hour:02d}:${t.minute:02d}'
}
*/
// hhmm12 returns a string for t in the given format HH:MM in 12h notation
pub fn (t Time) hhmm12() string {
return t.get_fmt_time_str(.hhmm12)
}
// hhmmss returns a string for t in the given format HH:MM:SS in 24h notation
pub fn (t Time) hhmmss() string {
return t.get_fmt_time_str(.hhmmss24)
}
// ymmdd returns a string for t in the given format YYYY-MM-DD
pub fn (t Time) ymmdd() string {
return t.get_fmt_date_str(.hyphen, .yyyymmdd)
}
// ddmmy returns a string for t in the given format DD.MM.YYYY
pub fn (t Time) ddmmy() string {
return t.get_fmt_date_str(.dot, .ddmmyyyy)
}
// md returns a string for t in the given format MMM D
pub fn (t Time) md() string {
return t.get_fmt_date_str(.space, .mmmd)
}
pub fn (t Time) clean() string {
nowe := time.now()
// if amtime {
// hm = t.Format("3:04 pm")
// }
// Today
if t.month == nowe.month && t.year == nowe.year && t.day == nowe.day {
return t.get_fmt_time_str(.hhmm24)
}
// This week
// if time.Since(t) < 24*7*time.Hour {
// return t.Weekday().String()[:3] + " " + hm
// }
// This year
if t.year == nowe.year {
return t.get_fmt_str(.space, .hhmm24, .mmmd)
}
return t.format()
// return fmt.Sprintf("%4d/%02d/%02d", t.Year(), t.Month(), t.Day()) + " " + hm
}
pub fn (t Time) clean12() string {
nowe := time.now()
// if amtime {
// hm = t.Format("3:04 pm")
// }
// Today
if t.month == nowe.month && t.year == nowe.year && t.day == nowe.day {
return t.get_fmt_time_str(.hhmm12)
}
// This week
// if time.Since(t) < 24*7*time.Hour {
// return t.Weekday().String()[:3] + " " + hm
// }
// This year
if t.year == nowe.year {
return t.get_fmt_str(.space, .hhmm12, .mmmd)
}
return t.format()
// return fmt.Sprintf("%4d/%02d/%02d", t.Year(), t.Month(), t.Day()) + " " + hm
}
// `parse` parses time in the following format: "2018-01-27 12:48:34"
pub fn parse(s string) ?Time {
pos := s.index(' ') or {
return error('Invalid time format: $s')
}
symd := s[..pos]
ymd := symd.split('-')
if ymd.len != 3 {
return error('Invalid time format: $s')
}
shms := s[pos..]
hms := shms.split(':')
hour := hms[0][1..]
minute := hms[1]
second := hms[2]
return new_time(Time{
year: ymd[0].int()
month: ymd[1].int()
day: ymd[2].int()
hour: hour.int()
minute: minute.int()
second: second.int()
})
}
// `parse_iso` parses time in the following format: "Thu, 12 Dec 2019 06:07:45 GMT"
pub fn parse_iso(s string) ?Time {
fields := s.split(' ')
if fields.len < 5 {
return error('Invalid time format: $s')
}
pos := months_string.index(fields[2]) or {
return error('Invalid time format: $s')
}
mm := pos / 3 + 1
tmstr := malloc(s.len * 2)
count := C.sprintf(charptr(tmstr), '%s-%02d-%s %s'.str, fields[3].str, mm,
fields[1].str, fields[4].str)
t := parse(tos(tmstr, count)) or {
// FIXME Remove this when optional forwarding is fixed.
return error('Invalid time format: $s')
}
return t
}
pub fn new_time(t Time) Time { pub fn new_time(t Time) Time {
return Time{ return Time{
year: t.year year: t.year
@ -234,16 +97,14 @@ pub fn new_time(t Time) Time {
second: t.second second: t.second
unix: t.calc_unix() unix: t.calc_unix()
} }
// TODO: Use the syntax below when it works with reserved keywords like `unix` // TODO Use the syntax below when it works with reserved keywords like `unix`
/* // return {
return { // t |
t | // unix:t.calc_unix()
unix:t.calc_unix() // }
}
*/
} }
// calc_unix returns Unix time.
pub fn (t &Time) calc_unix() int { pub fn (t &Time) calc_unix() int {
if t.unix != 0 { if t.unix != 0 {
return t.unix return t.unix
@ -259,20 +120,25 @@ pub fn (t &Time) calc_unix() int {
return make_unix_time(tt) return make_unix_time(tt)
} }
// TODO add(d time.Duration) // add_days returns a new time struct with an added number of seconds.
pub fn (t Time) add_seconds(seconds int) Time { pub fn (t Time) add_seconds(seconds int) Time {
// TODO Add(d time.Duration)
return unix(t.unix + seconds) return unix(t.unix + seconds)
} }
// add_days returns a new time struct with an added number of days.
pub fn (t Time) add_days(days int) Time { pub fn (t Time) add_days(days int) Time {
return unix(t.unix + days * 3600 * 24) return unix(t.unix + days * 3600 * 24)
} }
// TODO use time.Duration instead of seconds // since returns a number of seconds elapsed since a given time.
fn since(t Time) int { fn since(t Time) int {
// TODO Use time.Duration instead of seconds
return 0 return 0
} }
// relative returns a string representation of difference between time
// and current time.
pub fn (t Time) relative() string { pub fn (t Time) relative() string {
now := time.now() now := time.now()
secs := now.unix - t.unix secs := now.unix - t.unix
@ -299,6 +165,8 @@ pub fn (t Time) relative() string {
return t.md() return t.md()
} }
// day_of_week returns the current day of a given year, month, and day,
// as an integer.
pub fn day_of_week(y, m, d int) int { pub fn day_of_week(y, m, d int) int {
// Sakomotho's algorithm is explained here: // Sakomotho's algorithm is explained here:
// https://stackoverflow.com/a/6385934 // https://stackoverflow.com/a/6385934
@ -310,22 +178,18 @@ pub fn day_of_week(y, m, d int) int {
return (sy + sy / 4 - sy / 100 + sy / 400 + t[m - 1] + d - 1) % 7 + 1 return (sy + sy / 4 - sy / 100 + sy / 400 + t[m - 1] + d - 1) % 7 + 1
} }
// day_of_week returns the current day as an integer.
pub fn (t Time) day_of_week() int { pub fn (t Time) day_of_week() int {
return day_of_week(t.year, t.month, t.day) return day_of_week(t.year, t.month, t.day)
} }
// weekday_str() returns the current day in string (upto 3 characters) // weekday_str returns the current day as a string.
pub fn (t Time) weekday_str() string { pub fn (t Time) weekday_str() string {
i := t.day_of_week() - 1 i := t.day_of_week() - 1
return days_string[i * 3..(i + 1) * 3] return days_string[i * 3..(i + 1) * 3]
} }
pub struct C.timeval { // ticks returns a number of milliseconds elapsed since system start.
tv_sec u64
tv_usec u64
}
// in ms
pub fn ticks() i64 { pub fn ticks() i64 {
$if windows { $if windows {
return C.GetTickCount() return C.GetTickCount()
@ -334,14 +198,12 @@ pub fn ticks() i64 {
C.gettimeofday(&ts, 0) C.gettimeofday(&ts, 0)
return i64(ts.tv_sec * u64(1000) + (ts.tv_usec / u64(1000))) return i64(ts.tv_sec * u64(1000) + (ts.tv_usec / u64(1000)))
} }
/* // t := i64(C.mach_absolute_time())
t := i64(C.mach_absolute_time()) // # Nanoseconds elapsedNano = AbsoluteToNanoseconds( *(AbsoluteTime *) &t );
# Nanoseconds elapsedNano = AbsoluteToNanoseconds( *(AbsoluteTime *) &t ); // # return (double)(* (uint64_t *) &elapsedNano) / 1000000;
# return (double)(* (uint64_t *) &elapsedNano) / 1000000;
*/
} }
// sleep makes the calling thread sleep for a given number of seconds.
pub fn sleep(seconds int) { pub fn sleep(seconds int) {
$if windows { $if windows {
C.Sleep(seconds * 1000) C.Sleep(seconds * 1000)
@ -350,6 +212,7 @@ pub fn sleep(seconds int) {
} }
} }
// sleep_ms makes the calling thread sleep for a given number of milliseconds.
pub fn sleep_ms(milliseconds int) { pub fn sleep_ms(milliseconds int) {
$if windows { $if windows {
C.Sleep(milliseconds) C.Sleep(milliseconds)
@ -358,6 +221,7 @@ pub fn sleep_ms(milliseconds int) {
} }
} }
// usleep makes the calling thread sleep for a given number of microseconds.
pub fn usleep(microseconds int) { pub fn usleep(microseconds int) {
$if windows { $if windows {
milliseconds := microseconds / 1000 milliseconds := microseconds / 1000
@ -367,12 +231,12 @@ pub fn usleep(microseconds int) {
} }
} }
// Determine whether a year is a leap year. // is_leap_year checks if a given a year is a leap year.
pub fn is_leap_year(year int) bool { pub fn is_leap_year(year int) bool {
return (year % 4 == 0) && (year % 100 != 0 || year % 400 == 0) return (year % 4 == 0) && (year % 100 != 0 || year % 400 == 0)
} }
// Returns number of days in month // days_in_month returns a number of days in a given month.
pub fn days_in_month(month, year int) ?int { pub fn days_in_month(month, year int) ?int {
if month > 12 || month < 1 { if month > 12 || month < 1 {
return error('Invalid month: $month') return error('Invalid month: $month')
@ -382,115 +246,10 @@ pub fn days_in_month(month, year int) ?int {
return res return res
} }
// get_fmt_time_str returns a string for time t in a given format // str returns time in the same format as `parse` expects ("YYYY-MM-DD HH:MM:SS").
// @param FormatTime
// @return string
// @example 21:23:42
pub fn (t Time) get_fmt_time_str(fmt_time FormatTime) string {
if fmt_time == .no_time {
return ''
}
tp := if t.hour > 11 { 'p.m.' } else { 'a.m.' }
hour := if t.hour > 12 { t.hour - 12 } else if t.hour == 0 { 12 } else { t.hour }
return match fmt_time {
.hhmm12{
'$hour:${t.minute:02d} $tp'
}
.hhmm24{
'${t.hour:02d}:${t.minute:02d}'
}
.hhmmss12{
'$hour:${t.minute:02d}:${t.second:02d} $tp'
}
.hhmmss24{
'${t.hour:02d}:${t.minute:02d}:${t.second:02d}'
}
else {
'unknown enumeration $fmt_time'}
}
}
// get_fmt_date_str returns a string for t in a given date format
// @param FormatDelimiter, FormatDate
// @return string
// @example 11.07.1980
pub fn (t Time) get_fmt_date_str(fmt_dlmtr FormatDelimiter, fmt_date FormatDate) string {
if fmt_date == .no_date {
return ''
}
month := '${t.smonth()}'
year := t.year.str()[2..]
return match fmt_date {
.ddmmyy{
'${t.day:02d}|${t.month:02d}|$year'
}
.ddmmyyyy{
'${t.day:02d}|${t.month:02d}|${t.year}'
}
.mmddyy{
'${t.month:02d}|${t.day:02d}|$year'
}
.mmddyyyy{
'${t.month:02d}|${t.day:02d}|${t.year}'
}
.mmmd{
'$month|${t.day}'
}
.mmmdd{
'$month|${t.day:02d}'
}
.mmmddyyyy{
'$month|${t.day:02d}|${t.year}'
}
.yyyymmdd{
'${t.year}|${t.month:02d}|${t.day:02d}'
}
else {
'unknown enumeration $fmt_date'}}.replace('|', match fmt_dlmtr {
.dot{
'.'
}
.hyphen{
'-'
}
.slash{
'/'
}
.space{
' '
}
else {
'unknown enumeration $fmt_dlmtr'}})
}
// get_fmt_str returns a string for t in a given format for time and date
// @param FormatDelimiter, FormatTime, FormatDate
// @return string
// @example 11.07.1980 21:23:42
pub fn (t Time) get_fmt_str(fmt_dlmtr FormatDelimiter, fmt_time FormatTime, fmt_date FormatDate) string {
if fmt_date == .no_date {
if fmt_time == .no_time {
// saving one function call although it's checked in
// t.get_fmt_time_str(fmt_time) in the beginning
return ''
}
else {
return t.get_fmt_time_str(fmt_time)
}
}
else {
if fmt_time != .no_time {
return t.get_fmt_date_str(fmt_dlmtr, fmt_date) + ' ' + t.get_fmt_time_str(fmt_time)
}
else {
return t.get_fmt_date_str(fmt_dlmtr, fmt_date)
}
}
}
// `str` returns time in the same format as `parse` expects: "2018-01-27 12:48:34"
// TODO define common default format for `str` and `parse` and use it in both ways
pub fn (t Time) str() string { pub fn (t Time) str() string {
// TODO Define common default format for
// `str` and `parse` and use it in both ways
return t.format_ss() return t.format_ss()
} }

124
vlib/time/time_test.v
View File

@ -1,14 +1,15 @@
import time import time
const ( const (
time_to_test = time.new_time(time.Time{ time_to_test = time.Time{
year: 1980 year: 1980
month: 7 month: 7
day: 11 day: 11
hour: 21 hour: 21
minute: 23 minute: 23
second: 42 second: 42
}) unix: 332198622
}
) )
fn test_is_leap_year() { fn test_is_leap_year() {
@ -22,15 +23,6 @@ fn test_is_leap_year() {
assert time.is_leap_year(2100) == false assert time.is_leap_year(2100) == false
} }
fn test_now_format() {
t := time.now()
u := t.unix
println(u)
println(t.format())
println(time.unix(u).format())
assert t.format() == time.unix(u).format()
}
fn check_days_in_month(month, year, expected int) bool { fn check_days_in_month(month, year, expected int) bool {
res := time.days_in_month(month, year) or { res := time.days_in_month(month, year) or {
return false return false
@ -113,34 +105,6 @@ fn test_smonth() {
} }
} }
fn test_format() {
assert '11.07.1980 21:23' == time_to_test.get_fmt_str(.dot, .hhmm24, .ddmmyyyy)
}
fn test_hhmm() {
assert '21:23' == time_to_test.hhmm()
}
fn test_hhmm12() {
assert '9:23 p.m.' == time_to_test.hhmm12()
}
fn test_hhmmss() {
assert '21:23:42' == time_to_test.hhmmss()
}
fn test_ymmdd() {
assert '1980-07-11' == time_to_test.ymmdd()
}
fn test_ddmmy() {
assert '11.07.1980' == time_to_test.ddmmy()
}
fn test_md() {
assert 'Jul 11' == time_to_test.md()
}
fn test_day_of_week() { fn test_day_of_week() {
for i := 0; i < 7; i++ { for i := 0; i < 7; i++ {
day_of_week := i + 1 day_of_week := i + 1
@ -182,88 +146,6 @@ fn test_add_days() {
assert t.unix == time_to_test.unix + 86400 * num_of_days assert t.unix == time_to_test.unix + 86400 * num_of_days
} }
fn test_get_fmt_time_str() {
assert '21:23:42' == time_to_test.get_fmt_time_str(.hhmmss24)
assert '21:23' == time_to_test.get_fmt_time_str(.hhmm24)
assert '9:23:42 p.m.' == time_to_test.get_fmt_time_str(.hhmmss12)
assert '9:23 p.m.' == time_to_test.get_fmt_time_str(.hhmm12)
}
fn test_get_fmt_date_str() {
assert '11.07.1980' == time_to_test.get_fmt_date_str(.dot, .ddmmyyyy)
assert '11/07/1980' == time_to_test.get_fmt_date_str(.slash, .ddmmyyyy)
assert '11-07-1980' == time_to_test.get_fmt_date_str(.hyphen, .ddmmyyyy)
assert '11 07 1980' == time_to_test.get_fmt_date_str(.space, .ddmmyyyy)
assert '07.11.1980' == time_to_test.get_fmt_date_str(.dot, .mmddyyyy)
assert '07/11/1980' == time_to_test.get_fmt_date_str(.slash, .mmddyyyy)
assert '07-11-1980' == time_to_test.get_fmt_date_str(.hyphen, .mmddyyyy)
assert '07 11 1980' == time_to_test.get_fmt_date_str(.space, .mmddyyyy)
assert '11.07.80' == time_to_test.get_fmt_date_str(.dot, .ddmmyy)
assert '11/07/80' == time_to_test.get_fmt_date_str(.slash, .ddmmyy)
assert '11-07-80' == time_to_test.get_fmt_date_str(.hyphen, .ddmmyy)
assert '11 07 80' == time_to_test.get_fmt_date_str(.space, .ddmmyy)
assert '07.11.80' == time_to_test.get_fmt_date_str(.dot, .mmddyy)
assert '07/11/80' == time_to_test.get_fmt_date_str(.slash, .mmddyy)
assert '07-11-80' == time_to_test.get_fmt_date_str(.hyphen, .mmddyy)
assert '07 11 80' == time_to_test.get_fmt_date_str(.space, .mmddyy)
assert 'Jul 11' == time_to_test.get_fmt_date_str(.space, .mmmd)
assert 'Jul 11' == time_to_test.get_fmt_date_str(.space, .mmmdd)
assert 'Jul 11 1980' == time_to_test.get_fmt_date_str(.space, .mmmddyyyy)
assert '1980-07-11' == time_to_test.get_fmt_date_str(.hyphen, .yyyymmdd)
}
fn test_get_fmt_str() {
// Since get_fmt_time_str and get_fmt_date_str do have comprehensive
// tests I don't want to exaggerate here with all possible
// combinations.
assert '11.07.1980 21:23:42' == time_to_test.get_fmt_str(.dot, .hhmmss24, .ddmmyyyy)
}
fn test_parse() {
s := '2018-01-27 12:48:34'
t := time.parse(s) or {
assert false
return
}
assert t.year == 2018 && t.month == 1 && t.day == 27 && t.hour == 12 && t.minute == 48 && t.second == 34
assert t.unix == 1517057314
}
fn test_parse_invalid() {
s := 'Invalid time string'
t := time.parse(s) or {
assert true
return
}
assert false
}
fn test_parse_iso() {
s1 := 'Thu, 12 Dec 2019 06:07:45 GMT'
t1 := time.parse_iso(s1) or {
assert false
return
}
assert t1.year == 2019 && t1.month == 12 && t1.day == 12 && t1.hour == 6 && t1.minute == 7 && t1.second == 45
assert t1.unix == 1576130865
s2 := 'Thu 12 Dec 2019 06:07:45 +0800'
t2 := time.parse_iso(s2) or {
assert false
return
}
assert t2.year == 2019 && t2.month == 12 && t2.day == 12 && t2.hour == 6 && t2.minute == 7 && t2.second == 45
assert t2.unix == 1576130865
}
fn test_parse_iso_invalid() {
s3 := 'Thu 12 Foo 2019 06:07:45 +0800'
t3 := time.parse_iso(s3) or {
assert true
return
}
assert false
}
fn test_str() { fn test_str() {
assert '1980-07-11 21:23:42' == time_to_test.str() assert '1980-07-11 21:23:42' == time_to_test.str()
} }

1
vlib/time/time_unix.v → vlib/time/unix.v
View File

@ -3,6 +3,7 @@
// that can be found in the LICENSE file. // that can be found in the LICENSE file.
module time module time
// unix returns a time struct from Unix time.
pub fn unix(abs int) Time { pub fn unix(abs int) Time {
// Split into day and time // Split into day and time
mut day_offset := abs / seconds_per_day mut day_offset := abs / seconds_per_day