--[=[ 2014-03-02
Date and time utilities
]=]
-- local globals
local DateTime
local Parser = { }
local Private = { }
local Prototypes = { }
local World = { slang = "en",
monthsLong = { },
monthsParse = { },
months4 = { } }
local Nbsp = mw.ustring.char( 160 )
local Tab = mw.ustring.char( 9 )
World.era = { en = { "BC", "AD" } }
World.monthsAbbr = { en = { n = 3 } }
World.monthsLong.en = { "January",
"February",
"March",
"April",
"May",
"June",
"July",
"August",
"September",
"October",
"November",
"December"
}
World.monthsParse.en = { [ "Apr" ] = 4,
[ "Aug" ] = 8,
[ "Dec" ] = 12,
[ "Feb" ] = 2,
[ "Jan" ] = 1,
[ "Jul" ] = 7,
[ "Jun" ] = 6,
[ "Mar" ] = 3,
[ "May" ] = 5,
[ "Nov" ] = 11,
[ "Oct" ] = 10,
[ "Sep" ] = 9
}
World.months4.en = { [ 6 ] = "Jun.",
[ 7 ] = "Jul." }
World.templates = { [ "ISO" ] =
{ spec = "Y-m-d",
lift = true },
[ "ISO-T" ] =
{ spec = "c" },
[ "timestamp" ] =
{ spec = "YmdHis" }
}
World.templates.en = { }
World.zones = {
[ "!" ] = "YXWVUTSRQPONZABCDEFGHIKLM",
UTC = 0,
GMT = 0 -- Greenwich Mean Time
}
World.zones.en = {
BST = 100, -- British Summer Time
IST = 100, -- Irish Summer Time
WET = 0, -- Western Europe Time
WEST = 100, -- Western Europe Summer Time
CET = 100, -- Central Europe Time
CEST = 200, -- Central Europe Summer Time
EET = 200, -- Eastern Europe Time
EEST = 300, -- Eastern Europe Summer Time
MSK = 300, -- Moscow Time
MSD = 400, -- Moscow Summer Time
NST = -330, -- Newfoundland Standard Time
NDT = -230, -- Newfoundland Daylight Time
AST = -400, -- Atlantic Standard Time
ADT = -300, -- Atlantic Daylight Time
EST = -500, -- Eastern Standard Time
EDT = -400, -- Eastern Daylight Saving Time
CST = -600, -- Central Standard Time
CDT = -500, -- Central Daylight Saving Time
MST = -700, -- Mountain Standard Time
MDT = -600, -- Mountain Daylight Saving Time
PST = -800, -- Pacific Standard Time
PDT = -700, -- Pacific Daylight Saving Time
AKST = -900, -- Alaska Standard Time
AKDT = -800, -- Alaska Standard Daylight Saving Time
HST = -1000 -- Hawaiian Standard Time
}
local function capitalize( a )
-- Upcase first character, downcase anything else
-- Parameter:
-- a -- string
-- Returns:
-- string
return mw.ustring.upper( mw.ustring.sub( a, 1, 1 ) )
.. mw.ustring.lower( mw.ustring.sub( a, 2 ) )
end -- fault()
local function fault( a )
-- Format error message by class=error
-- Parameter:
-- a -- string, error message
-- Returns:
-- string, HTML span
return string.format( "<span class=\"error\">%s</span>", a )
end -- fault()
DateTime = function ( assign, alien )
-- Create metatable (constructor)
-- Parameter:
-- assign -- string, with initial timestamp, or nil
-- nil -- now
-- false -- empty object
-- alien -- string, with language code, or nil
-- Returns:
-- table, as DateTime object
-- string or false, if failed
local r
Private.foreign()
r = Private.factory( assign, alien )
if type( r ) == "table" then
local meta = { }
local s = "__datetime"
meta.__index = function( self, access )
return self[ s ][ access ]
end
meta.__newindex = function( self, access, assign )
if type( access ) == "string" then
local data = self[ s ]
if assign == nil then
local val = data[ access ]
data[ access ] = nil
if not Prototypes.fair( data ) then
data[ access ] = val
end
elseif Prototypes.fair( data,
access,
assign ) then
data[ access ] = assign
end
end
return
end
r = { [ s ] = r }
r.fair = function ( ... )
return Prototypes.fair( ... )
end
r.format = function ( ... )
return Prototypes.format( ... )
end
setmetatable( r, meta )
end
return r
end -- DateTime()
Parser.digitsHeading = function ( analyse, alone, amount, add )
-- String analysis, if digits only or at least 4 digits heading
-- Parameter:
-- analyse -- string to be scanned, starting with digit
-- digits only, else starting with exactly 4 digits
-- alone -- true, if only digits
-- amount -- number of heading digits
-- add -- table, to be extended
-- Returns:
-- table, extended if parsed
-- false, if invalid text format
local r = add
if alone then
-- digits only
if amount <= 4 then
r.year = tonumber( analyse )
elseif n == 14 then
-- timestamp
r.year = tonumber( analyse:sub( 1, 4 ) )
r.month = tonumber( analyse:sub( 5, 2 ) )
r.dom = tonumber( analyse:sub( 7, 2 ) )
r.hour = tonumber( analyse:sub( 9, 2 ) )
r.min = tonumber( analyse:sub( 11, 2 ) )
r.sec = tonumber( analyse:sub( 13, 2 ) )
else
r = false
end
elseif amount == 4 then
local s, sep, sx = analyse:match( "^(%d+)([%-%.:w]?)(.*)$" )
r.year = tonumber( s )
if sep == "-" then
-- ISO
s, sep, sx = sx:match( "^(%d%d)(-?)(.*)$" )
if s then
r.month = tonumber( s )
r.month2 = true
if sep == "-" then
s, sep, sx = sx:match( "^(%d%d?)([ T]?)(.*)$" )
if s then
r.dom = tonumber( s )
if sep == "T" then
r.month2 = nil
else
r.dom2 = ( #s == 2 )
end
if sep then
r = Parser.time( sx, r, sep == "T" )
end
else
r = false
end
elseif sx and sx ~= "" then
r = false
end
else
r = false
end
elseif sep:lower() == "w" then
if s then
s = s:match( "^(%d%d?)$" )
if s then
r.week = tonumber( s )
else
r = false
end
else
r = false
end
else
r = false
end
elseif amount == 8 then
-- ISO compact
local s, sz = analyse:match( "^%d+T(%d+)([.+-]?%d*%a*)$" )
if s then
local n = #s
if n == 2 or n == 4 or n == 6 then
r.year = tonumber( analyse:sub( 1, 4 ) )
r.month = tonumber( analyse:sub( 5, 6 ) )
r.dom = tonumber( analyse:sub( 7, 8 ) )
r.hour = tonumber( analyse:sub( 10, 11 ) )
if n > 2 then
r.min = tonumber( s:sub( 3, 4 ) )
if n == 6 then
r.sec = tonumber( s:sub( 5, 6 ) )
end
n, s = sz:match( "^(%.%d+)([+-]?[%a%d]*)$" )
if n then
n = n .. "00"
r.msec = tonumber( n:sub( 1, 3 ) )
sz = s
end
end
if sz ~= "" then
s, sz = sz:match( "^([+-]?)(%a*)$" )
if s == "" then
if sz:match( "^(%u)$" ) then
r.zone = sz
else
s = false
end
elseif #s == 1 then
r.zone = s .. sz
else
s = false
end
end
else
s = false
end
end
if s then
r = false
end
end
return r
end -- Parser.digitsHeading()
Parser.eraGermanEnglish = function ( analyse )
-- String analysis, for German and English era
-- v. Chr. v. u. Z. n. Chr. AD BC A.D. B.C. B.C.E.
-- Parameter:
-- analyse -- string
-- Returns:
-- 1 -- table, with boolean era, if any
-- 2 -- string, with era stripped off, if any
local rO = { }
local rS = analyse
local s, switch = analyse:match( "^(.+) ([vn])%. ?Chr%.$" )
if switch then
rS = s
rO.bc = ( switch == "v" )
elseif analyse:find( " v%. ?u%. ?Z%.$" ) then
rS = analyse:match( "^(.+) v%. ?u%. ?Z%.$" )
rO.bc = true
elseif analyse:find( " B%.? ?C%.? ?E?%.?$" ) then
rS = analyse:match( "^(.+) B%.? ?C%.? ?E?%.?$" )
rO.bc = true
elseif analyse:find( "^A%.? ?D%.? " ) then
rS = analyse:match( "^A%.? ?D%.? (.*)$" )
rO.bc = false
end
return rO, rS
end -- Parser.eraGermanEnglish()
Parser.european = function ( ahead, adhere, analyse, assign )
-- String analysis, retrieve date style: DOM MONTH YEAR
-- Parameter:
-- ahead -- string, with first digits, not more than 2
-- adhere -- string, with first separator; not ":"
-- analyse -- string, remainder following adhere
-- assign -- table
-- Returns:
-- table, extended if parsed
local r = assign
local s, s2, sx
if adhere == "." or adhere == ". " then
-- 23.12.2013
-- 23. Dezember 2013
s, sx = analyse:match( "^(%d%d?)%.(.*)$" )
if s then
r = Parser.putDate( false, s, ahead, assign )
r = Parser.yearTime( sx, r )
else
s, sx = mw.ustring.match( analyse,
"^ ?([%a&;]+%.?) ?(.*)$" )
if s then
local n = Parser.monthNumber( s )
if n then
r.month = n
r.dom = tonumber( ahead )
r.dom2 = ( #ahead == 2 )
r = Parser.yearTime( sx, r )
else
r = false
end
else
r = false
end
end
elseif adhere == " " then
-- 23 Dec 2013
s, sx = mw.ustring.match( analyse,
"^([%a&;]+%.?) ?(.*)$" )
if s then
local n = Parser.monthNumber( s )
if n then
r.month = n
r.dom = tonumber( ahead )
r.dom2 = ( #ahead == 2 )
r = Parser.yearTime( sx, r )
else
r = false
end
else
r = false
end
else
r = false
end
return r
end -- Parser.european()
Parser.monthHeading = function ( analyse, assign )
-- String analysis, retrieve month heading date (US only)
-- Parameter:
-- analyse -- string, with heading word
-- assign -- table
-- Returns:
-- 1 -- table, extended if parsed
-- 2 -- stripped string, or false, if invalid text format
local rO = assign
local rS = analyse
local s, sep = mw.ustring.match( analyse, "^([%a&;]+%.?)([^%a%.]?)" )
if s then
-- might begin with month name "December 23, 2013"
local n = Parser.monthNumber( s )
if n then
rO.month = n
if sep == "" then
rS = ""
else
local s2, s3
n = mw.ustring.len( s ) + 1
s = mw.ustring.sub( analyse, n )
s2 = s:match( "^ (%d%d%d?%d?)$" )
if s2 then
rO.year = tonumber( s2 )
rS = ""
else
s2, s3, rS = s:match( "^ (%d+), (%d+)( ?.*)$" )
if s2 and s3 then
n = #s2
if n <= 2 and #s3 == 4 then
rO.dom = tonumber( n )
rO.year = tonumber( s3 )
rO.dom2 = ( n == 2 )
else
rO = false
end
else
rO = false
end
end
end
else
rO = false
end
else
rO = false
end
if not rO then
rS = false
end
return rO, rS
end -- Parser.monthHeading()
Parser.monthNumber = function ( analyse )
-- String analysis, retrieve month number
-- Parameter:
-- analyse -- string, with month name including any period
-- Returns:
-- number, 1...12 if found
-- false or nil, if not detected
local r = false
local s = mw.ustring.match( analyse, "^([%a&;]+)%.?$" )
if s then
local given
s = capitalize( s )
for k, v in pairs( World.monthsLong ) do
given = World.monthsParse[ k ]
if given then
r = given[ s ]
end
if not r then
given = World.monthsLong[ k ]
for i = 1, 12 do
if given[ i ] == s then
r = i
break
end
end -- for i
end
if r then
break
end
end -- for k, v
end
return r
end -- Parser.monthNumber()
Parser.putDate = function ( aYear, aMonth, aDom, assign )
-- Store date strings
-- Parameter:
-- aYear -- string, with year, or false
-- aMonth -- string, with numeric month
-- aDom -- string, with day of month
-- assign -- table
-- Returns:
-- table, extended
local r = assign
if aYear then
r.year = tonumber( aYear )
end
r.month = tonumber( aMonth )
r.dom = tonumber( aDom )
r.month2 = ( #aMonth == 2 )
r.dom2 = ( #aDom == 2 )
return r
end -- Parser.putDate()
Parser.time = function ( analyse, assign, adjusted )
-- String analysis, retrieve time components
-- Parameter:
-- analyse -- string, with time part
-- assign -- table
-- adjusted -- true: fixed length of 2 digits expected
-- Returns:
-- table, extended if parsed
-- false, if invalid text format
local r = assign
if analyse ~= "" then
local s, sx = analyse:match( "^(%d+)(:?.*)$" )
if s then
local n = #s
if n <= 2 then
r.hour = tonumber( s )
if not adjusted then
r.hour2 = ( n == 2 )
end
else
sx = false
r = false
end
if sx then
s, sx = sx:match( "^:(%d+)(:?(.*))$" )
if s then
if #s == 2 then
r.min = tonumber( s )
if sx == "" then
sx = false
end
else
sx = false
r = false
end
if sx then
local sep
local scan = "^([:,] ?)(%d+)(.*)$"
sep, s, sx = sx:match( scan )
if sep == ":" then
if #s == 2 then
r.sec = tonumber( s )
end
elseif sep == ", " then
r = Parser.wikiDate( s .. sx, r )
sx = false
else
r = false
end
end
else
r = false
end
end
if sx and sx ~= "" then
s = sx:match( "^%.(%d+)$" )
if s then
r.msec = tonumber( s )
else
r = false
end
end
else
r = false
end
end
return r
end -- Parser.time()
Parser.wikiDate = function ( analyse, assign )
-- String analysis, for date after wiki ~~~~~ signature time
-- dmy 10:28, 30. Dez. 2013
-- ymd 10:28, 2013 Dez. 30
-- Parameter:
-- analyse -- string
-- assign -- table
-- Returns:
-- table, extended if parsed
-- false, if invalid text format
local r
local s = analyse:match( "^(2%d%d%d) " )
local sx
if s then
-- ymd "10:28, 2013 Dez. 30"
local n = false
r = assign
r.year = tonumber( s )
s = analyse:sub( 6 )
s, sx = mw.ustring.match( analyse:sub( 6 ),
"^([%a&;]+)%.? (%d%d?)$" )
if s then
n = Parser.monthNumber( s )
if n then
r.month = n
end
end
if n then
r.dom = tonumber( sx )
r.dom2 = ( #sx == 2 )
else
r = false
end
else
-- dmy "10:28, 30. Dez. 2013"
local sep
s, sep, sx = analyse:match( "^(%d%d?)(%.? ?)(%a.+)$" )
if s then
r = Parser.european( s, sep, sx, assign )
else
r = false
end
end
return r
end -- Parser.wikiDate()
Parser.yearTime = function ( analyse, assign )
-- String analysis, for possible year and possible time
-- Parameter:
-- analyse -- string, starting with year
-- assign -- table
-- allow -- true, if less than 4 digits permitted
-- Returns:
-- table, extended if parsed
-- false, if invalid text format
local r = assign
local n = #analyse
if n > 0 then
local s, sx
if n == 4 then
if analyse:match( "^%d%d%d%d$" ) then
s = analyse
sx = false
end
else
s = analyse:match( "^(%d%d%d%d)[ ,]" )
if s then
sx = analyse:sub( 5 )
else
local suffix
s, sx, suffix = analyse:match( "^(%d+)([ ,]?)(.*)$" )
if s then
local j = #sx
n = #s
if n < 4 and ( j == 1 or #suffix == 0 ) then
sx = analyse:sub( n + j )
else
s = false
end
end
end
end
if s then
r.year = tonumber( s )
if sx then
s, sx = sx:match( "^(,? ?)(%d.*)$" )
if #s >= 1 then
r = Parser.time( sx, r )
end
end
else
r = false
end
end
return r
end -- Parser.yearTime()
Parser.zone = function ( analyse, assign )
-- String analysis, for time zone
-- +/-nn +/-nnnn (AAAa)
-- Parameter:
-- analyse -- string
-- assign -- table
-- Returns:
-- 1 -- table, with number or string zone, if any, or false
-- 2 -- string, with zone stripped off, if any
local rO = assign
local rS = analyse
local s, sign, shift, sub
s = "^(.+)([+-])([01]%d):?(%d?%d?)$"
s, sign, shift, sub = analyse:match( s )
if sign then
if s:find( ":%d%d *$" ) then
if sub then
if #sub == 2 then
rO.zone = tonumber( shift .. sub )
else
rO = false
end
else
rO.zone = tonumber( shift ) * 100
end
if rO then
if sign == "-" then
rO.zone = - rO.zone
end
rS = mw.text.trim( s )
end
end
elseif analyse:find( "%(.*%)$" ) then
s, shift = analyse:match( "^(.+)%((%a%a%a%a?)%)$" )
if shift then
rO.zone = shift:upper()
rS = mw.text.trim( s )
else
rO = false
end
else
s, shift = analyse:match( "^(.+%d) ?(%a+)$" )
if shift then
local n = #shift
if n == 1 then
rO.zone = shift:upper()
elseif n == 3 then
if shift == "UTC" or shift == "GMT" then
rO.zone = 0
end
end
if rO.zone then
rS = s
end
end
end
return rO, rS
end -- Parser.zone()
Parser.GermanEnglish = function ( analyse )
-- String analysis, for German and English formats
-- Parameter:
-- analyse -- string, with date or time or parts of it
-- Returns:
-- table, if parsed
-- false, if invalid text format
local r, s = Parser.eraGermanEnglish( analyse )
r, s = Parser.zone( s, r )
if r then
local start, sep, sx = s:match( "^(%d+)([ %-%.:WwT]?)(.*)$" )
if start then
-- begins with one or more digits (ASCII)
local n = #start
local lazy = ( start == s and
( n >=4 or type( r.bc == "boolean" ) ) )
if n == 4 or n == 8 or lazy then
r = Parser.digitsHeading( s, lazy, n, r )
elseif n <= 2 then
if sep == ":" then
r, s = Parser.time( s, r )
elseif sep == "" then
r = false
else
r = Parser.european( start, sep, sx, r )
end
else
r = false
end
else
r, s = Parser.monthHeading( s, r )
if r and s ~= "" then
r = Parser.time( s, r )
end
end
end
return r
end -- Parser.GermanEnglish()
Private.factory = function ( assign, alien )
-- Create DateTime table (constructor)
-- Parameter:
-- assign -- string, with initial timestamp, or nil
-- nil -- now
-- false -- empty object
-- alien -- string, with language code, or nil
-- Returns:
-- table, for DateTime object
-- string or false, if failed
local l = true
local r = false
local slang = mw.text.trim( alien or World.slang or "en" )
if assign == false then
r = { }
else
local stamp = ( assign or "now" )
if stamp == "now" then
stamp = mw.getCurrentFrame():callParserFunction( "#timel",
"c" )
end
l, r = pcall( Private.fetch, stamp, slang )
end
if l and type( r ) == "table" then
if slang ~= "" then
r.lang = slang
end
end
return r
end -- Private.factory()
Private.fetch = function ( analyse, alien )
-- Retrieve object from string
-- Parameter:
-- analyse -- string to be interpreted
-- alien -- string with language code, or nil
-- Returns:
-- table, if parsed
-- false, if invalid text format
-- string, if serious error (args)
local r
if type( analyse ) == "string" then
r = analyse:gsub( " ", " " )
:gsub( " ", " " )
:gsub( " ", " " )
:gsub( Nbsp, " " )
:gsub( Tab, " " )
:gsub( " +", " " )
r = mw.text.trim( r )
if r == "" then
r = { }
else
local slang = ( alien or "" )
if slang == "" then
slang = "en"
else
local s = slang:match( "^(%a+)%-" )
if s then
slang = s
end
end
slang = slang:lower()
if slang == "en" or slang == "de" then
local l
l, r = pcall( Parser.GermanEnglish, r )
if l and r then
if not Prototypes.fair( r ) then
r = false
end
end
else
r = "unknown language"
end
end
else
r = "bad type"
end
return r
end -- Private.fetch()
Private.foreign = function ()
-- Retrieve localization submodule
if not World.localization then
local l, d = pcall( mw.loadData, "Module:DateTime/local" )
if l then
local wk
if d.slang then
World.slang = d.slang
end
for k, v in pairs( d ) do
wk = World[ k ]
if wk and wk.en then
for subk, subv in pairs( v ) do
wk[ subk ] = subv
end -- for k, v
else
World[ k ] = v
end
end -- for k, v
end
World.localization = true
end
end -- Private.foreign()
Prototypes.fair = function ( self, access, assign )
-- Check formal validity of table
-- Parameter:
-- self -- table to be checked
-- access -- string or nil, single item to be checked
-- assign -- single access value to be checked
-- Returns:
-- true, if valid; false, if not
local r = ( type( self ) == "table" )
if r then
local defs = { year = { max = 2099 },
month = { max = 12 },
dom = { max = 31 },
hour = { max = 23 },
min = { max = 59 },
sec = { max = 61 },
msec = { max = 1000 }
}
local months = { 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }
local fNum =
function ( k, v )
local ret = true
local dk = defs[ k ]
if dk then
local mx = dk.max
if type( mx ) == "number" then
ret = ( type( v ) == "number" )
if ret then
ret = ( v >= 0 and v <= mx
and math.floor( v ) == v )
if ret and dk.f then
ret = dk.f( v )
end
end
end
end
return ret
end -- fNum()
defs.dom.f =
function ()
local ret
local d
if access == "dom" then
d = assign
else
d = self.dom
end
if d then
ret = ( d <= 28 )
if not ret then
local m
if access == "month" then
m = assign
else
m = self.month
end
if m then
ret = ( d <= months[ m ] )
if ret then
local y
if access == "year" then
y = assign
else
y = self.year
end
if d == 29 and m == 2 and y then
if y % 4 ~= 0 or y % 400 == 0 then
ret = false
end
end
end
end
end
else
ret = true
end
return ret
end -- defs.dom.f()
defs.sec.f =
function ()
local ret
local second
if access == "sec" then
second = assign
else
second = self.sec
end
if second then
ret = ( second <= 59 )
if not ret and self.leap then
ret = true
end
end
return ret
end -- defs.sec.f()
if access or assign then
r = ( type( access ) == "string" )
if r then
local def = defs[ access ]
if def then
r = fNum( access, assign )
if r then
if def == "dom" or
def == "month" or
def == "year" then
r = defs.dom.f()
end
end
end
end
else
local order = { "bc", "year", "month", "dom",
"hour", "min", "sec", "msec" }
local life = false
local leak = false
local s, v
for i = 1, 8 do
s = order[ i ]
v = self[ s ]
if v then
if not life and leak then
-- gap detected
r = false
break
else
if not fNum( s, v ) then
r = false
break
end
life = true
leak = true
end
else
life = false
end
end -- for i
end
end
return r
end -- Prototypes.fair()
Prototypes.format = function ( self, ask, alien )
-- Format object as string
-- Parameter:
-- self -- table, with numbers etc.
-- ask -- string, format spec, or nil
-- alien -- string, with language code, or nil
-- Returns:
-- string, or false, if invalid
local r = false
if type( self ) == "table" then
local slang = ( alien or self.lang )
local babel = mw.language.new( slang )
if babel then
local show
local stamp
local suffix
local locally
if self.month then
stamp = World.monthsLong.en[ self.month ]
if self.year then
stamp = string.format( "%s %04d", stamp, self.year )
end
if self.dom then
stamp = string.format( "%d %s", self.dom, stamp )
end
elseif self.year then
stamp = string.format( "%04d", self.year )
end
if self.hour then
stamp = string.format( "%s %02d:", stamp, self.hour )
if self.min then
stamp = string.format( "%s%02d", stamp, self.min )
if self.sec then
stamp = string.format( "%s:%02d",
stamp, self.sec )
if self.msec then
stamp = string.format( "%s.%d",
stamp, self.msec )
end
end
else
stamp = stamp .. "00"
end
if self.zone then
stamp = stamp .. World.zones.formatter( self, "+-" )
end
end
show, suffix = World.templates.formatter( self, ask, alien )
if self.locally or alien then
locally = true
else
locally = false
end
r = babel:formatDate( show, stamp, locally )
if self.year and self.year < 1000 then
r = r:gsub( string.format( "%04d", self.year ),
tostring( self.year ) )
end
if self.month and ask and ask:find( "Mon4" ) then
local mon4 = World.months4[ slang ]
if mon4 then
mon4 = mon4[ self.month ]
if mon4 then
local mon = World.monthsLong[ slang ]
r = r:gsub( mon4, mon[ self.month ] )
end
end
end
if suffix then
r = r .. suffix
end
end
end
return r
end -- Prototypes.format()
World.templates.formatter = function ( assigned, ask, alien )
-- Retrieve format specification string
-- Parameter:
-- assigned -- table, with numbers etc.
-- ask -- string, format spec, or nil
-- alien -- string, with language code, or nil
-- Returns:
-- 1 -- string
-- 2 -- string or nil; append suffix (zone)
local r1, r2
if not ask or ask == "" then
r1 = "c"
else
local template = World.templates[ ask ]
r1 = ask
if not template then
local slang = ( alien or assigned.lang or World.slang )
local tmp = World.templates[ slang ]
if tmp then
template = tmp[ ask ]
end
end
if type( template ) == "table" then
r1 = template.spec
if assigned.year then
if not assigned.dom then
r1 = r1:gsub( "[ .]?[jJ][ .,%-]*", "" )
:gsub( "^ ", "" )
if not assigned.month then
r1 = r1:gsub( "[ .%-]?[fFmM][ .%-]*", "" )
end
end
else
r1 = r1:gsub( " ?[yY] ?", "" )
if not assigned.dom then
r1 = r1:gsub( "[ .]?[jJ][ .,%-]*", "" )
:gsub( "^ ", "" )
end
end
if template.lift then
local spec = "T._Monat JJJJ hh:mm:ss Zone"
local stamp = false
local low = ( ask == "ISO" or ask == "ISO-T" )
if ask ~= spec then
spec = false
end
if assigned.hour and assigned.min then
stamp = "H:i"
if assigned.sec then
stamp = "H:i:s"
if assigned.msec then
stamp = string.format( "%s.%d",
stamp, assigned.msec )
end
end
end
if low or spec then
if stamp then
r1 = string.format( "%s %s", r1, stamp )
end
end
if stamp then
local dewiki = ( ask == "dewiki" or spec )
if low or dewiki then
local scheme
if dewiki then
scheme = "de"
end
r2 = World.zones.formatter( assigned, scheme )
end
end
end
if type ( assigned.bc ) == "boolean" then
local eras = World.era[ alien ] or World.era.en
local i
if not r2 then
r2 = ""
end
if assigned.bc then
i = 1
else
i = 2
end
r2 = string.format( "%s %s", r2, eras[ i ] )
end
end
end
return r1, r2
end -- World.templates.formatter()
World.zones.formatter = function ( assigned, align )
-- Retrieve time zone specification string
-- Parameter:
-- assigned -- table, with numbers etc.
-- .zone should be available
-- align -- string, format spec, or nil
-- nil, false, "+-" -- +/- 0000
-- "Z" -- single letter
-- "UTC" -- "UTC", if appropriate
-- "de" -- try localized
-- Returns:
-- string
local r = ""
local move = 0
if assigned.zone then
local s = type( assigned.zone )
if s == "string" then
s = assigned.zone:upper()
if #s == 1 then
-- "YXWVUTSRQPONZABCDEFGHIKLM"
move = World.zones[ "!" ]:find( s )
if move then
move = ( move - 13 ) * 100
assigned.zone = move
else
assigned.zone = false
end
else
local code = World.zones[ s ]
if not code then
local slang = ( assigned.lang or
World.slang )
local tmp = World.zones[ slang ]
if tmp then
code = tmp[ s ]
end
end
if code then
move = code
assigned.zone = move
end
end
elseif s == "number" then
move = assigned.zone
end
end
if move then
local spec = "+-"
if align then
if align == "Z" then
if move % 100 == 0 then
r = World.zones[ "!" ]:sub( move / 100 + 13, 1 )
spec = false
end
elseif align ~= "+-" then
if move == 0 then
r = " UTC"
spec = false
else
local part = World.zones[ align ]
if part then
for k, v in pairs( part ) do
if v == move then
r = string.format( " (%s)", k )
spec = false
break
end
end -- for k, v
end
end
end
end
if spec == "+-" then
if move < 0 then
spec = "%4.4d"
else
spec = "+%4.4d"
end
r = string.format( spec, move )
r = string.format( "%s:%s",
r:sub( 1, 3), r:sub( 4 ) )
end
end
return r
end -- World.zones.formatter()
-- Export
local p = { }
function p.test( args )
local r
local o = DateTime( args[ 1 ], "de" )
if type( o ) == "table" then
local spec = args[ 2 ]
local slang = args[ 3 ]
if spec then
spec = mw.text.trim( spec )
end
if slang then
slang = mw.text.trim( slang )
end
r = o:format( spec, slang )
else
r = ( args.noerror or "0" )
if r == "0" then
r = fault( "Format nicht erkannt" )
else
r = ""
end
end
return r
end -- p.test
function p.format( frame )
local l, r
local v = { frame.args[ 1 ],
frame.args[ 2 ],
frame.args[ 3 ],
noerror = frame.args.noerror }
if not v[ 1 ] or v[ 1 ] == "now" then
v[ 1 ] = frame:callParserFunction( "#timel", "c" )
end
l, r = pcall( p.test, v )
if not l then
r = fault( r )
end
return r
end -- p.format
p.DateTime = function ( ... )
return DateTime( ... )
end -- p.DateTime
return p