มอดูล:number list/data/de
หน้าตา
- The following documentation is generated by Module:documentation. [edit]
- Useful links: root page • root page’s subpages • links • transclusions • testcases • sandbox
This module contains data on various types of numbers in เยอรมัน.
(edit)
local export = {numbers = {}}
local m_numutils = require("Module:number list/utils")
local map = m_numutils.map
local power_of = m_numutils.power_of
export.additional_number_types = {
{key = "sequence_adverb", after = "ordinal"},
{key = "adverbial_abbreviation", after = "adverbial"},
{key = "multiplier_abbreviation", after = "multiplier"},
{key = "polygon"},
{key = "polygon_abbreviation"},
{key = "polygonal_adjective"},
{key = "polygonal_adjective_abbreviation"},
{key = "polyhedron"},
{key = "polyhedron_abbreviation"},
}
local numbers = export.numbers
local lcfirst = function(text) return mw.getContentLanguage():lcfirst(text) end
local ucfirst = function(text) return mw.getContentLanguage():ucfirst(text) end
local function add_ordinal_suffix(num, term)
term = lcfirst(term):gsub("e$", "")
if type(num) == "number" and num < 20 then
return term .. "te"
else
return term .. "ste"
end
end
local function add_suffix(numstr, term, suffix)
term = lcfirst(term):gsub("e$", "")
if #numstr >= 7 and not term:find("en$") then
-- Million -> millionenmal, Milliarde -> milliardenmal
term = term .. "en"
end
return term .. suffix
end
local function has_polygon(num)
if type(num) == "string" then
return false
end
return num >= 3 and num <= 22 or num == 24 or num == 27 or num == 28 or num == 30 or num == 31 or num == 32 or
num == 34 or num == 36 or num == 40 or num == 48 or num == 50 or num == 51 or num == 60 or num == 70 or
num == 80
end
local function make_number(num, props, card_base)
local numstr = m_numutils.format_fixed(num)
local ordinal_abbr
if #numstr < 10 then
local with_thousands_dot = m_numutils.add_thousands_separator(numstr, ".") .. "."
local with_thousands_space = m_numutils.add_thousands_separator(numstr, " ") .. "."
if with_thousands_dot == with_thousands_space then
ordinal_abbr = with_thousands_dot
else
ordinal_abbr = {with_thousands_dot, with_thousands_space}
end
end
card_base = card_base or props.cardinal
props.ordinal = props.ordinal or map(function(card) return add_ordinal_suffix(num, card) end, card_base)
props.ordinal_abbr = ordinal_abbr
if props.wplink == true then
props.wplink = card_base
end
if props.adverbial == true then
props.adverbial = map(function(card) return add_suffix(numstr, card, "mal") end, card_base)
end
if props.adverbial and type(num) == "number" and num <= 100 then
props.adverbial_abbreviation = num .. "-mal"
end
if props.multiplier == true then
props.multiplier = map(function(card) return add_suffix(numstr, card, "fach") end, card_base)
end
if props.multiplier and type(num) == "number" and num <= 100 then
props.multiplier_abbreviation = num .. "-fach"
end
if props.fractional == true then
props.fractional = map(function(ord) return ucfirst(ord) .. "l" end, props.ordinal)
end
if props.sequence_adverb == true then
props.sequence_adverb = map(function(ord) return ord .. "ns" end, props.ordinal)
end
if has_polygon(num) then
props.polygon = map(function(card) return ucfirst(card) .. "eck" end, card_base)
props.polygon_abbreviation = num .. "-Eck"
props.polygonal_adjective = map(function(polygon) return lcfirst(polygon) .. "ig" end, props.polygon)
props.polygonal_adjective_abbreviation = num .. "-eckig"
end
numbers[num] = props
end
make_number(0, {
cardinal = "null",
wplink = true,
adverbial = true,
multiplier = true,
})
make_number(1, {
cardinal = {"eins", "ein<q:before a noun>"},
ordinal = "erste",
wplink = "eins",
adverbial = true,
multiplier = true,
fractional = "Ganzes",
sequence_adverb = true,
}, "ein")
make_number(2, {
cardinal = "zwei",
wplink = true,
adverbial = true,
multiplier = true,
fractional = "Hälfte",
sequence_adverb = true,
})
-- Do numbers 3 through 12.
for i, cardinal in ipairs { "drei", "vier", "fünf", "sechs", "sieben", "acht", "neun", "zehn", "elf", "zwölf" } do
local num = i + 2
local ordinal
if num == 3 then
ordinal = "dritte"
elseif num == 7 then
ordinal = "siebte"
elseif num == 8 then
ordinal = "achte"
else
ordinal = cardinal .. "te"
end
make_number(num, {
cardinal = cardinal,
ordinal = ordinal,
wplink = true,
adverbial = true,
multiplier = true,
fractional = true,
sequence_adverb = true,
})
end
-- Do numbers 13 through 19.
for i, teen in ipairs {
"dreizehn", "vierzehn", "fünfzehn", "sechzehn", "siebzehn", "achtzehn", "neunzehn"
} do
local num = i + 12
make_number(num, {
cardinal = teen,
wplink = true,
adverbial = true,
multiplier = true,
fractional = true,
sequence_adverb = true,
})
end
-- Do numbers 20 through 99.
for i, tens_cardinal in ipairs {
"zwanzig", {"dreißig<tag:Germany, Austria>", "dreissig<tag:Switzerland, Liechtenstein>"}, "vierzig", "fünfzig",
"sechzig", "siebzig", "achtzig", "neunzig",
} do
local tens = (i + 1) * 10
for ones = 0, 9 do
local num = tens + ones
local ones_prefix
if ones == 0 then
ones_prefix = ""
elseif ones == 1 then
ones_prefix = "einund"
else
ones_prefix = numbers[ones].cardinal .. "und"
end
local cardinal = map(function(tens_card) return ones_prefix .. tens_card end, tens_cardinal)
local wplink
if num >= 30 and num <= 39 then
wplink = ones_prefix .. "dreißig"
elseif num <= 40 or num == 50 or num == 60 or num == 64 or num == 72 or num == 73 or num == 88 or
num == 97 or num == 98 or num == 99 then
-- Really random collection of numbers for which there are currently German Wikipedia entries.
wplink = true
end
make_number(num, {
cardinal = cardinal,
wplink = wplink,
adverbial = true,
multiplier = true,
fractional = true,
sequence_adverb = true,
})
end
end
make_number(100, {
cardinal = {"hundert", "einhundert"},
wplink = true,
adverbial = true,
multiplier = true,
fractional = true,
sequence_adverb = true,
}, "hundert")
make_number(101, {
cardinal = {"hunderteins", "einhunderteins"},
ordinal = {"hunderterste", "einhunderterste"},
adverbial = true,
multiplier = true,
fractional = true,
sequence_adverb = true,
}, {"hundertein", "einhundertein"})
-- Do numbers 200 through 900 by 100.
for i=200, 900, 100 do
make_number(i, {
cardinal = numbers[i / 100].cardinal .. "hundert",
-- no wplink for any of these numbers
adverbial = true,
multiplier = true,
fractional = true,
sequence_adverb = true,
})
end
make_number(1000, {
cardinal = {"tausend", "eintausend"},
wplink = true,
adverbial = true,
multiplier = true,
fractional = true,
sequence_adverb = true,
}, "tausend")
local function make_large_number(num, cardinal, card_base, wplink)
make_number(num, {
cardinal = cardinal,
wplink = wplink,
adverbial = true,
multiplier = true,
fractional = true,
-- sequence adverbs this large can't easily be attested.
}, card_base)
end
-- Do numbers 2000 through 9000 by 1000.
for i=2000, 9000, 1000 do
-- no wplink for any of these numbers
make_large_number(i, numbers[i / 1000].cardinal .. "tausend")
end
-- Do numbers 10,000 through 90,000 by 10,000.
for i=10000, 90000, 10000 do
-- no wplink for any of these numbers
make_large_number(i,
-- Need to use map() because of 30.
map(function(base_card) return base_card .. "tausend" end, numbers[i / 1000].cardinal)
)
end
-- Do numbers 100,000 through 900,000 by 100,000.
for i=100000, 900000, 100000 do
-- no wplink for any of these numbers
make_large_number(i,
-- Need to use map() because of 100.
map(function(base_card) return base_card .. "tausend" end, numbers[i / 1000].cardinal)
)
end
make_large_number(1000000, "[[ein|eine]] [[Million]]<link:Million>", "million", "Million")
make_large_number(2000000, "[[zwei]] [[Million]]en", "zweimillion")
make_large_number(power_of(7), "[[zehn]] [[Million]]en", "zehnmillion")
make_large_number(power_of(8), "[[hundert]] [[Million]]en", "hundertmillion")
make_large_number(power_of(9), "[[ein|eine]] [[Milliarde]]<link:Milliarde>", "milliard", "Milliarde")
make_large_number(power_of(9, 2), "[[zwei]] [[Milliarde]]n", "zweimilliard")
make_large_number(power_of(10), "[[zehn]] [[Milliarde]]n", "zehnmilliard")
make_large_number(power_of(11), "[[hundert]] [[Milliarde]]n", "hundertmilliard")
make_large_number(power_of(12), "[[ein|eine]] [[Billion]]<link:Billion>", "billion", "Billion")
make_large_number(power_of(13), "[[zehn]] [[Billion]]en", "zehnbillion")
make_large_number(power_of(14), "[[hundert]] [[Billion]]en", "hundertbillion")
make_large_number(power_of(15), "[[ein|eine]] [[Billiarde]]<link:Billiarde>", "billiard", "Billiarde")
make_large_number(power_of(18), "[[ein|eine]] [[Trillion]]<link:Trillion>", "trillion", "Trillion")
make_large_number(power_of(21), "[[ein|eine]] [[Trilliarde]]<link:Trilliarde>", "trilliard", "Trilliarde")
make_large_number(power_of(24), "[[ein|eine]] [[Quadrillion]]<link:Quadrillion>", "quadrillion", "Quadrillion")
make_large_number(power_of(27), "[[ein|eine]] [[Quadrilliarde]]<link:Quadrilliarde>", "quadrilliard", "Quadrilliarde")
make_large_number(power_of(30), "[[ein|eine]] [[Quintillion]]<link:Quintillion>", "quintillion", "Quintillion")
make_large_number(power_of(33), "[[ein|eine]] [[Quintilliarde]]<link:Quintilliarde>", "quintilliard", "Quintilliarde")
make_large_number(power_of(36), "[[ein|eine]] [[Sextillion]]<link:Sextillion>", "sextillion", "Sextillion")
make_large_number(power_of(39), "[[ein|eine]] [[Sextilliarde]]<link:Sextilliarde>", "sextilliard", "Sextilliarde")
make_large_number(power_of(42), "[[ein|eine]] [[Septillion]]<link:Septillion>", "septillion", "Septillion")
make_large_number(power_of(45), "[[ein|eine]] [[Septilliarde]]<link:Septilliarde>", "septilliard", "Septilliarde")
make_large_number(power_of(48), "[[ein|eine]] [[Oktillion]]<link:Oktillion>", "oktillion", "Oktillion")
make_large_number(power_of(51), "[[ein|eine]] [[Oktilliarde]]<link:Oktilliarde>", "oktilliard", "Oktilliarde")
make_large_number(power_of(54), "[[ein|eine]] [[Nonillion]]<link:Nonillion>", "nonillion", "Nonillion")
make_large_number(power_of(57), "[[ein|eine]] [[Nonilliarde]]<link:Nonilliarde>", "nonilliard", "Nonilliarde")
make_large_number(power_of(60), "[[ein|eine]] [[Dezillion]]<link:Dezillion>", "dezillion", "Dezillion")
make_large_number(power_of(63), "[[ein|eine]] [[Dezilliarde]]<link:Dezilliarde>", "dezilliard", "Dezilliarde")
make_large_number(power_of(66), "[[ein|eine]] [[Undezillion]]<link:Undezillion>", "undezillion", "Undezillion")
make_large_number(power_of(69), "[[ein|eine]] [[Undezilliarde]]<link:Undezilliarde>", "undezilliard", "Undezilliarde")
make_large_number(power_of(72), "[[ein|eine]] [[Duodezillion]]<link:Duodezillion>", "duodezillion", "Duodezillion")
make_large_number(power_of(75), "[[ein|eine]] [[Duodezilliarde]]<link:Duodezilliarde>", "duodezilliard", "Duodezilliarde")
make_large_number(power_of(78), "[[ein|eine]] [[Tredezillion]]<link:Tredezillion>", "tredezillion", "Tredezillion")
make_large_number(power_of(81), "[[ein|eine]] [[Tredezilliarde]]<link:Tredezilliarde>", "tredezilliard", "Tredezilliarde")
make_large_number(power_of(84), "[[ein|eine]] [[Quattuordezillion]]<link:Quattuordezillion>", "quattuordezillion", "Quattuordezillion")
make_large_number(power_of(87), "[[ein|eine]] [[Quattuordezilliarde]]<link:Quattuordezilliarde>", "quattuordezilliard", "Quattuordezilliarde")
make_large_number(power_of(120), "[[ein|eine]] [[Vigintillion]]<link:Vigintillion>", "vigintillion", "Vigintillion")
make_large_number(power_of(123), "[[ein|eine]] [[Vigintilliarde]]<link:Vigintilliarde>", "vigintilliard", "Vigintilliarde")
return export