Modul:Time
This module is subject to page protection. It is a highly visible module in use by a very large number of articles, or is substituted very frequently. Because vandalism or mistakes would affect many pages, and even trivial editing might cause substantial load on the servers, it is is protected from editing. |
Bu moduldan koʻplab sahifada foydalanilgan. Tajriba oʻtkazish uchun modulning /qumloq yoki /test ostsahifalaridan foydalaning. Oʻzgarishlar kiritishdan avval boshqa foydalanuvchilar bilan muhokama qilish haqida oʻylab koʻring. |
Implements {{time}}. See also {{time/sandbox}} and Template:Time/testcases.
require('strict')
local yesno = require('Module:Yesno')
local getArgs = require ('Module:Arguments').getArgs
local tz = {}; -- holds local copy of the specified timezone table from tz_data{}
local cfg = {}; -- for internationalization
--[[--------------------------< I S _ S E T >------------------------------------------------------------------
Whether variable is set or not. A variable is set when it is not nil and not empty.
]]
local function is_set( var )
return not (nil == var or '' == var);
end
--[[--------------------------< S U B S T I T U T E >----------------------------------------------------------
Populates numbered arguments in a message string using an argument table.
]]
local function substitute (msg, args)
return args and mw.message.newRawMessage (msg, args):plain() or msg;
end
--[[--------------------------< E R R O R _ M S G >------------------------------------------------------------
create an error message
]]
local function error_msg (msg, arg)
return substitute (cfg.err_msg, substitute (cfg.err_text[msg], arg))
end
--[[--------------------------< D E C O D E _ D S T _ E V E N T >----------------------------------------------
extract ordinal, day-name, and month from daylight saving start/end definition string as digits:
Second Sunday in March
returns
2 0 3
Casing doesn't matter but the form of the string does:
<ordinal> <day> <any single word> <month> – all are separated by spaces
]]
local function decode_dst_event (dst_event_string)
local ord, day, month;
dst_event_string = dst_event_string:lower(); -- force the string to lower case because that is how the tables above are indexed
ord, day, month = dst_event_string:match ('([%a%d]+)%s+(%a+)%s+%a+%s+(%a+)');
if not (is_set (ord) and is_set (day) and is_set (month)) then -- if one or more of these not set, then pattern didn't match
return nil;
end
return cfg.ordinals[ord], cfg.days[day], cfg.months[month];
end
--[[--------------------------< G E T _ D A Y S _ I N _ M O N T H >--------------------------------------------
Returns the number of days in the month where month is a number 1–12 and year is four-digit Gregorian calendar.
Accounts for leap year.
]]
local function get_days_in_month (year, month)
local days_in_month = {31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31};
year = tonumber (year); -- force these to be numbers just in case
month = tonumber (month);
if (2 == month) then -- if February
if (0 == (year%4) and (0 ~= (year%100) or 0 == (year%400))) then -- is year a leap year?
return 29; -- if leap year then 29 days in February
end
end
return days_in_month [month];
end
--[[--------------------------< G E T _ D S T _ M O N T H _ D A Y >--------------------------------------------
Return the date (month and day of the month) for the day that is the ordinal (nth) day-name in month (second
Friday in June) of the current year
timestamp is today's date-time number from os.time(); used to supply year
timezone is the timezone parameter value from the template call
Equations used in this function taken from Template:Weekday_in_month
]]
local function get_dst_month_day (timestamp, start)
local ord, weekday_num, month;
local first_day_of_dst_month_num;
local last_day_of_dst_month_num;
local days_in_month;
local year;
if true == start then
ord, weekday_num, month = decode_dst_event (tz.dst_begins); -- get start string and convert to digits
else
ord, weekday_num, month = decode_dst_event (tz.dst_ends); -- get end string and convert to digits
end
if not (is_set (ord) and is_set (weekday_num) and is_set (month)) then
return nil; -- could not decode event string
end
year = os.date ('%Y', timestamp);
if -1 == ord then -- j = t + 7×(n + 1) - (wt - w) mod 7 -- if event occurs on the last day-name of the month ('last Sunday of October')
days_in_month = get_days_in_month (year, month);
last_day_of_dst_month_num = os.date ('%w', os.time ({['year']=year, ['month']=month, ['day']=days_in_month}));
return month, days_in_month + 7*(ord + 1) - ((last_day_of_dst_month_num - weekday_num) % 7);
else -- j = 7×n - 6 + (w - w1) mod 7
first_day_of_dst_month_num = os.date ('%w', os.time ({['year']=year, ['month']=month, ['day']=1}))
return month, 7 * ord - 6 + (weekday_num - first_day_of_dst_month_num) % 7; -- return month and calculated date
end
end
--[[--------------------------< G E T _ U T C _ O F F S E T >--------------------------------------------------
Get utc offset in hours and minutes, convert to seconds. If the offset can't be converted return nil.
TODO: return error message?
TODO: limit check this? +/-n hours?
]]
local function get_utc_offset ()
local sign;
local hours;
local minutes;
sign, hours, minutes = mw.ustring.match (tz.utc_offset, '([%+%-±−]?)(%d%d):(%d%d)');
if '-' == sign then sign = -1; else sign = 1; end
if is_set (hours) and is_set (minutes) then
return sign * ((hours * 3600) + (minutes * 60));
else
return nil; -- we require that all timezone tables have what appears to be a valid offset
end
end
--[[--------------------------< M A K E _ D S T _ T I M E S T A M P S >----------------------------------------
Return UTC timestamps for the date/time of daylight saving time events (beginning and ending). These timestamps
will be compared to current UTC time. A dst timestamp is the date/time in seconds UTC for the timezone at the
hour of the dst event.
For dst rules that specify local event times, the timestamp is the sum of:
timestamp = current year + dst_month + dst_day + dst_time (all in seconds) local time
Adjust local time to UTC by subtracting utc_offset:
timestamp = timestamp - utc_offset (in seconds)
For dst_end timestamp, subtract an hour for DST
timestamp = timestamp - 3600 (in seconds)
For dst rules that specify utc event time the process is the same except that utc offset is not subtracted.
]]
local function make_dst_timestamps (timestamp)
local dst_begin, dst_end; -- dst begin and end time stamps
local year; -- current year
local dst_b_month, dst_e_month, dst_day; -- month and date of dst event
local dst_hour, dst_minute; -- hour and minute of dst event on year-dst_month-dst_day
local invert = false; -- flag to pass on when dst_begin month is numerically larger than dst_end month (southern hemisphere)
local utc_offset;
local utc_flag;
year = os.date ('%Y', timestamp); -- current year
utc_offset = get_utc_offset (); -- in seconds
if not is_set (utc_offset) then -- utc offset is a required timezone property
return nil;
end
dst_b_month, dst_day = get_dst_month_day (timestamp, true); -- month and day that dst begins
if not is_set (dst_b_month) then
return nil;
end
dst_hour, dst_minute = tz.dst_time:match ('(%d%d):(%d%d)'); -- get dst time
utc_flag = tz.dst_time:find ('[Uu][Tt][Cc]%s*$'); -- set flag when dst events occur at a specified utc time
dst_begin = os.time ({['year'] = year, ['month'] = dst_b_month, ['day'] = dst_day, ['hour'] = dst_hour, ['min'] = dst_minute}); -- form start timestamp
if not is_set (utc_flag) then -- if dst events are specified to occur at local time
dst_begin = dst_begin - utc_offset; -- adjust local time to utc by subtracting utc offset
end
dst_e_month, dst_day = get_dst_month_day (timestamp, false); -- month and day that dst ends
if not is_set (dst_e_month) then
return nil;
end
if is_set (tz.dst_e_time) then
dst_hour, dst_minute = tz.dst_e_time:match ('(%d%d):(%d%d)'); -- get ending dst time; this one for those locales that use different start and end times
utc_flag = tz.dst_e_time:find ('[Uu][Tt][Cc]%s*$'); -- set flag if dst is pegged to utc time
end
dst_end = os.time ({['year'] = year, ['month'] = dst_e_month, ['day'] = dst_day, ['hour'] = dst_hour, ['min'] = dst_minute}); -- form end timestamp
if not is_set (utc_flag) then -- if dst events are specified to occur at local time
dst_end = dst_end - 3600; -- assume that local end time is DST so adjust to local ST
dst_end = dst_end - utc_offset; -- adjust local time to utc by subtracting utc offset
end
if dst_b_month > dst_e_month then
invert = true; -- true for southern hemisphere eg: start September YYYY end April YYYY+1
end
return dst_begin, dst_end, invert;
end
--[[--------------------------< G E T _ T E S T _ T I M E >----------------------------------------------------
decode ISO formatted date/time into a table suitable for os.time(). Fallback to {{Timestamp}} format.
For testing, this time is UTC just as is returned by the os.time() function.
]]
local function get_test_time (iso_date)
local year, month, day, hour, minute, second;
year, month, day, hour, minute, second = iso_date:match ('(%d%d%d%d)%-(%d%d)%-(%d%d)T(%d%d):(%d%d):(%d%d)');
if not year then
year, month, day, hour, minute, second = iso_date:match ('^(%d%d%d%d)(%d%d)(%d%d)(%d%d)(%d%d)(%d%d)$');
if not year then
return nil; -- test time did not match the specified patterns
end
end
return {['year'] = year, ['month'] = month, ['day'] = day, ['hour'] = hour, ['min'] = minute, ['sec'] = second};
end
--[[----------------------< G E T _ F U L L _ U T C _ O F F S E T >-----------------------------------------------
Creates a standard UTC offset from numerical inputs, for function time to convert to a table. Expected inputs shall have the form:
<sign><hour><separator><portion>
where:
<sign> – optional; one of the characters: '+', '-' (hyphen), '±', '−' (minus); defaults to '+'
<hour> - one or two digits
<separator> - one of the characters '.' or ':'; required when <portion> is included; ignored else
<portion> - optional; one or two digits when <separator> is '.'; two digits else
returns correct utc offset string when input has a correct form; else returns the unmodified input
]]
local function get_full_utc_offset (utc_offset)
local h, m, sep, sign;
local patterns = {
'^([%+%-±−]?)(%d%d?)(%.)(%d%d?)$', -- one or two fractional hour digits
'^([%+%-±−]?)(%d%d?)(:)(%d%d)$', -- two minute digits
'^([%+%-±−]?)(%d%d?)[%.:]?$', -- hours only; ignore trailing separator
}
for _, pattern in ipairs(patterns) do -- loop through the patterns
sign, h, sep, m = mw.ustring.match (utc_offset, pattern);
if h then
break; -- if h is set then pattern matched
end
end
if not h then
return utc_offset; -- did not match a pattern
end
sign = ('' == sign) and '+' or sign; -- sign character is required; set to '+' if not specified
m = ('.' == sep) and ((sep .. m) * 60) or m or 0; -- fractional h to m
return string.format ('utc%s%02d:%02d', sign, h, m);
end
--[[--------------------------< T A B L E _ L E N >------------------------------------------------------------
return number of elements in table
]]
local function table_len (tbl)
local count = 0;
for _ in pairs (tbl) do
count = count + 1;
end
return count;
end
--[[--------------------------< F I R S T _ S E T >------------------------------------------------------------
scans through a list of parameter names that are aliases of each other and returns the value assigned to the
first args[alias] that has a set value; nil else. scan direction is right-to-left (top-to-bottom)
]]
local function first_set (list, args)
local i = 1;
local count = table_len (list); -- get count of items in list
while i <= count do -- loop through all items in list
if is_set( args[list[i]] ) then -- if parameter name in list is set in args
return args[list[i]]; -- return the value assigned to the args parameter
end
i = i + 1; -- point to next
end
end
--[=[-------------------------< T I M E >----------------------------------------------------------------------
This template takes several parameters (some positonal, some not); none are required:
1. the time zone abbreviation/UTC offset (positional, always the first unnamed parameter)
2. a date format flag; second positional parameter or |df=; can have one of several values
3. |dst= when set to 'no' disables dst calculations for locations that do not observe dst – Arizona in MST
4. |timeonly= when set to 'yes' only display the time
5. |dateonly= when set to 'yes' only display the date
6. |hide-refresh = when set to 'yes' removes the refresh link
7. |hide-tz = when set to 'yes' removes the timezone name
8. |unlink-tz = when set to 'yes' unlinks the timzone name
9. |_TEST_TIME_= a specific utc time in ISO date time format used for testing this code
TODO: convert _TEST_TIME_ to |time=?
Timezone abbreviations can be found here: [[List_of_time_zone_abbreviations]]
For custom date format parameters |df-cust=, |df-cust-a=, |df-cust-p= use codes
described here: [[:mw:Help:Extension:ParserFunctions##time]]
]=]
local function time (frame)
local args = getArgs (frame);
local utc_timestamp, timestamp; -- current or _TEST_TIME_ timestamps; timestamp is local ST or DST time used in output
local dst_begin_ts, dst_end_ts; -- DST begin and end timestamps in UTC
local tz_abbr; -- select ST or DST timezone abbreviaion used in output
local time_string; -- holds output time/date in |df= format
local utc_offset;
local invert; -- true when southern hemisphere
local DF; -- date format flag; the |df= parameter
local is_dst_tz;
local data = table.concat ({'Module:Time/data', frame:getTitle():find('sandbox', 1, true) and '/sandbox' or ''}); -- make a data module name; sandbox or live
data = mw.loadData (data); -- load the data module
cfg = data.cfg; -- get the configuration table
local tz_aliases = data.tz_aliases; -- get the aliases table
local tz_data = data.tz_data; -- get the tz data table
local Timeonly = yesno(first_set (cfg.aliases['timeonly'], args)); -- boolean
local Dateonly = yesno(first_set (cfg.aliases['dateonly'], args)); -- boolean
if Timeonly and Dateonly then -- invalid condition when both are set
Timeonly, Dateonly = false;
end
local Hide_refresh = yesno(first_set (cfg.aliases['hide-refresh'], args)); -- boolean
local Hide_tz = yesno(first_set (cfg.aliases['hide-tz'], args)); -- boolean
local Unlink_tz = yesno(first_set (cfg.aliases['unlink-tz'], args)); -- boolean
local DST = first_set (cfg.aliases['dst'], args) or true; -- string 'always' or boolean
local Lang = first_set (cfg.aliases['lang'], args); -- to render in a language other than the local wiki's language
local DF_cust = first_set (cfg.aliases['df-cust'], args); -- custom date/time formats
local DF_cust_a = first_set (cfg.aliases['df-cust-a'], args); -- for am/pm sensitive formats
local DF_cust_p = first_set (cfg.aliases['df-cust-p'], args);
if not ((DF_cust_a and DF_cust_p) or -- DF_cust_a xor DF_cust_p
(not DF_cust_a and not DF_cust_p))then
return error_msg ('bad_df_pair'); -- both are required
end
if args[1] then
args[1] = get_full_utc_offset (args[1]):lower(); -- make lower case because tz table member indexes are lower case
else
args[1] = 'utc'; -- default to utc
end
if mw.ustring.match (args[1], 'utc[%+%-±−]%d%d:%d%d') then -- if rendering time for a UTC offset timezone
tz.abbr = args[1]:upper():gsub('%-', '−'); -- set the link label to upper case and replace hyphen with a minus character (U+2212)
tz.article = tz.abbr; -- article title same as abbreviation
tz.utc_offset = mw.ustring.match (args[1], 'utc([%+%-±−]?%d%d:%d%d)'):gsub('−', '%-'); -- extract the offset value; replace minus character with hyphen
local s, t = mw.ustring.match (tz.utc_offset, '(±)(%d%d:%d%d)'); -- ± only valid for offset 00:00
if s and '00:00' ~= t then
return error_msg ('bad_sign');
end
tz.df = 'iso';
args[1] = 'utc_offsets'; -- spoof to show that we recognize this timezone
else
tz = tz_aliases[args[1]] and tz_data[tz_aliases[args[1]]] or tz_data[args[1]]; -- make a local copy of the timezone table from tz_data{}
if not tz then
return error_msg ('unknown_tz', args[1]); -- if the timezone given isn't in module:time/data(/sandbox)
end
end
DF = first_set (cfg.aliases['df'], args) or args[2] or tz.df or cfg.default_df; -- template |df= overrides typical df from tz properties
DF = DF:lower(); -- normalize to lower case
if not cfg.df_vals[DF] then
return error_msg ('bad_format', DF);
end
if is_set (args._TEST_TIME_) then -- typically used to test the code at a specific utc time
local test_time = get_test_time (args._TEST_TIME_);
if not test_time then
return error_msg ('test_time');
end
utc_timestamp = os.time(test_time);
else
utc_timestamp = os.time (); -- get current server time (UTC)
end
utc_offset = get_utc_offset (); -- utc offset for specified timezone in seconds
timestamp = utc_timestamp + utc_offset; -- make local time timestamp
if 'always' == DST then -- if needed to always display dst time
timestamp = timestamp + 3600; -- add a hour for dst
tz_abbr = tz.dst_abbr; -- dst abbreviation
elseif not yesno(DST) then -- for timezones that DO observe dst but for this location ...
tz_abbr = tz.abbr; -- ... dst is not observed (|dst=no) show time as standard time
else
if is_set (tz.dst_begins) and is_set (tz.dst_ends) and is_set (tz.dst_time) then -- make sure we have all of the parts
dst_begin_ts, dst_end_ts, invert = make_dst_timestamps (timestamp); -- get begin and end dst timestamps and invert flag
if nil == dst_begin_ts or nil == dst_end_ts then
return error_msg ('bad_dst');
end
if invert then -- southern hemisphere; use beginning and ending of standard time in the comparison
if utc_timestamp >= dst_end_ts and utc_timestamp < dst_begin_ts then -- is current date time standard time?
tz_abbr = tz.abbr; -- standard time abbreviation
else
timestamp = timestamp + 3600; -- add an hour
tz_abbr = tz.dst_abbr; -- dst abbreviation
end
else -- northern hemisphere
if utc_timestamp >= dst_begin_ts and utc_timestamp < dst_end_ts then -- all timestamps are UTC
timestamp = timestamp + 3600; -- add an hour
tz_abbr = tz.dst_abbr;
else
tz_abbr = tz.abbr;
end
end
elseif is_set (tz.dst_begins) or is_set (tz.dst_ends) or is_set (tz.dst_time) then -- if some but not all not all parts then emit error message
return error_msg ('bad_def', args[1]:upper());
else
tz_abbr = tz.abbr; -- dst not observed for this timezone
end
end
if Dateonly then
if 'iso' == DF then -- |df=iso
DF = 'iso_date';
elseif DF:find ('^dmy') or 'y' == DF then -- |df=dmy, |df=dmy12, |df=dmy24, |df=y
DF = 'dmy_date';
else
DF = 'mdy_date'; -- default
end
elseif Timeonly or DF:match ('^%d+$') then -- time only of |df= is just digits
DF = table.concat ({'t', DF:match ('%l*(12)') or '24'}); -- |df=12, |df=24, |df=dmy12, |df=dmy24, |df=mdy12, |df=mdy24; default to t24
elseif 'y' == DF or 'dmy24' == DF then
DF = 'dmy';
elseif 'mdy24' == DF then
DF = 'mdy';
end
local dformat;
if is_set (DF_cust) then
dformat=DF_cust;
elseif is_set (DF_cust_a) then -- custom format is am/pm sensitive?
if 'am' == os.date ('%P', timestamp) then -- if current time is am
dformat = DF_cust_a; -- use custom am format
else
dformat = DF_cust_p; -- use custom pm format
end
else
dformat = cfg.format[DF]; -- use format from tables or from |df=
end
time_string = frame:callParserFunction ({name='#time', args={dformat, '@'..timestamp, Lang}});
if Lang then
time_string = table.concat ({ -- bidirectional isolation of non-local language; yeah, rather brute force but simple
'<bdi lang="', -- start of opening bdi tag
Lang, -- insert rendered language code
'">', -- end of opening tag
time_string, -- insert the time string
'</bdi>' -- and close the tag
});
end
if not is_set (tz.article) then -- if some but not all not all parts then emit error message
return error_msg ('bad_def', args[1]:upper());
end
local refresh_link = (Hide_refresh and '') or
table.concat ({
' <span class="plainlinks" style="font-size:85%;">[[', -- open span
mw.title.getCurrentTitle():fullUrl({action = 'purge'}), -- add the a refresh link url
' ',
cfg['refresh-label'], -- add the label
']]</span>', -- close the span
});
local tz_tag = (Hide_tz and '') or
((Unlink_tz and table.concat ({' ', tz_abbr})) or -- unlinked
table.concat ({' [[', tz.article, '|', tz_abbr, ']]'})); -- linked
return table.concat ({time_string, tz_tag, refresh_link});
end
--[[--------------------------< E X P O R T E D F U N C T I O N S >------------------------------------------
]]
return {time = time}