Module:fun
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- ප්රයෝජනවත් සබැඳි: උප පිටු ලැයිස්තුව • සබැඳි • transclusions • testcases • sandbox (වෙනස)
fun
stands for "functional", but also functional programming can be fun. This library contains some typical metafunctions for functional programming, such as map
, some
, all
, curry
, as well as others.
Functions that take an array as their second argument are available as methods in the arrays created by Module:array, with the arguments reversed so that they can be called as methods.
It was started in a user sandbox (Module:User:Erutuon/functional). It is not to be confused with Lua Fun (of which there is a version at Module:User:Erutuon/luafun), even though some functions are similar.
The functions that take a table as their second argument will treat the table as an array if t[1]
is not nil
, and use ipairs
. Otherwise, they will treat it as a hashmap, using pairs
.
function map(func, iterable)
- Perform a function
func
on every element initerable
and return the resulting table.iterable
may be a table or a string. If a table, the function operates on every element in the array portion of the table; if a string, the function operates on every UTF-8 character in the string. The functionfunc
has the following signature:func(member, i, iterable)
. That is, the table element or UTF-8 character is first, then the index of this element, and then the iterable value (table or string). function mapIter(func, iterator, iterable, initial_value)
- Create a new array from the results of performing a function on the values returned by an iterator. Can be used in combination with
sortedPairs
in Module:table.func
has the same signature described above. Not very useful withgmatch
;func
would have anil
first argument, because the single value returned from the iterator would be supplied as the second argument tofunc
. mapIter( function(parameter_value, parameter_name) return { parameter_name, parameter_value } end, sortedPairs(frame.args)) --> returns a sorted array of arrays containing parameter names and values
local export = {}
local debug_track_module = "Module:debug/track"
local format = string.format
local getmetatable = getmetatable
local gmatch = string.gmatch
local ipairs = ipairs
local is_callable -- defined as export.is_callable below
local pairs = pairs
local pcall = pcall
local rawequal = rawequal
local rawget = rawget
local select = select
local setmetatable = setmetatable
local tostring = tostring
local type = type
local unpack = unpack
--[==[
Loaders for functions in other modules, which overwrite themselves with the target function when called. This ensures modules are only loaded when needed, retains the speed/convenience of locally-declared pre-loaded functions, and has no overhead after the first call, since the target functions are called directly in any subsequent calls.]==]
local function debug_track(...)
debug_track = require(debug_track_module)
return debug_track(...)
end
local function _iterString(iter, i)
i = i + 1
local char = iter()
if char ~= nil then
return i, char
end
end
-- Iterate over UTF-8-encoded codepoints in string.
local function iterString(str)
return _iterString, gmatch(str, ".[\128-\191]*"), 0
end
--[==[
Return {true} if the input is a function or functor (a table which can be called like a function, because it has a {__call} metamethod).
Note: if the input is a table with a protected metatable (i.e. one hidden using the `__metatable` metamethod), then this function will treat the value of `__metatable` as though it is the metatable, as that is what gets returned by `getmetatable` in such cases. If you are making use of the `__metatable` metamethod, make sure that `__metatable` is a table with a function at the `__call` key to ensure that this function returns the correct result; it does not matter if this function is the true `__call` metamethod.]==]
function export.is_callable(f)
local f_type = type(f)
if f_type == "function" then
return true
elseif f_type ~= "table" then
return false
end
-- A table is a functor if it has a `__call` metamethod. The only way to truly confirm this is by trying to call the table, but that could modify the table or other variables out of scope, so look for a `__call` metamethod instead. If the metatable is protected with `__metatable`, this may not be possible.
local mt = getmetatable(f)
if mt == nil then
return false
end
-- Check if the metatable is protected: `setmetatable` will throw an error if so.
local success = pcall(setmetatable, f, mt)
-- If it's protected, then `mt` could be anything, but use the heuristic that if a `__call` key exists then that's probably intentional.
-- This also builds in ways to ensure that this function always returns the correct result when implementing protected metatables.
if not success then
if type(mt) ~= "table" then
debug_track("fun/is_callable/protected metatable")
return false
end
local __metatable = rawget(mt, "__metatable")
-- If the value of `__metatable` is also `mt`, then `mt` must be the true metatable anyway (e.g. mw.loadData does this).
if __metatable == nil or not rawequal(mt, __metatable) then
debug_track("fun/is_callable/protected metatable")
end
end
local __call = rawget(mt, "__call")
-- `__call` metamethods have to be functions, so don't recurse when checking it.
return __call ~= nil and type(__call) == "function"
end
is_callable = export.is_callable
function export.chain(func1, func2, ...)
return func1(func2(...))
end
-- map(function(number) return number ^ 2 end,
-- { 1, 2, 3 }) --> { 1, 4, 9 }
-- map(function (char) return string.char(string.byte(char) - 0x20) end,
-- "abc") --> { "A", "B", "C" }
function export.map(func, iterable, isArray)
local array = {}
for k, v in (type(iterable) == "string" and iterString or (isArray or iterable[1] ~= nil) and ipairs or pairs)(iterable) do
array[k] = func(v, k, iterable)
end
return array
end
function export.mapIter(func, iter, iterable, initVal)
-- initVal could be anything
local array, i = {}, 0
for x, y in iter, iterable, initVal do
i = i + 1
array[i] = func(y, x, iterable)
end
return array
end
do
local function iter_tuples(tuples)
local i = tuples.i
if i > 1 then
i = i - 1
tuples.i = i
return unpack(tuples[i])
end
end
-- Takes an iterator function, and returns a new iterator that iterates in reverse, given the same arguments.
-- Note: changes to the state during iteration are not taken into account, since all the return values are calculated in advance.
function export.reverseIter(func)
return function(...)
-- Store all returned values as a list of tuples, then iterate in reverse over that list.
local tuples, i, iter, state, val1 = {}, 0, func(...)
while true do
i = i + 1
local vals = {iter(state, val1)}
-- Terminates if the first return value is nil, even if other values are non-nil.
val1 = vals[1]
if val1 == nil then
tuples.i = i
return iter_tuples, tuples
end
tuples[i] = vals
end
end
end
end
function export.forEach(func, iterable, isArray)
for k, v in (type(iterable) == "string" and iterString or (isArray or iterable[1] ~= nil) and ipairs or pairs)(iterable) do
func(v, k, iterable)
end
return nil
end
-------------------------------------------------
-- From http://lua-users.org/wiki/CurriedLua
-- reverse(...) : take some tuple and return a tuple of elements in reverse order
--
-- e.g. "reverse(1,2,3)" returns 3,2,1
local function reverse(...)
-- reverse args by building a function to do it, similar to the unpack() example
local function reverseHelper(acc, v, ...)
if select('#', ...) == 0 then
return v, acc()
else
return reverseHelper(function() return v, acc() end, ...)
end
end
-- initial acc is the end of the list
return reverseHelper(function() return end, ...)
end
function export.curry(func, numArgs)
-- currying 2-argument functions seems to be the most popular application
numArgs = numArgs or 2
-- no sense currying for 1 arg or less
if numArgs <= 1 then return func end
-- helper takes an argTrace function, and number of arguments remaining to be applied
local function curryHelper(argTrace, n)
if n == 0 then
-- kick off argTrace, reverse argument list, and call the original function
return func(reverse(argTrace()))
else
-- "push" argument (by building a wrapper function) and decrement n
return function(onearg)
return curryHelper(function() return onearg, argTrace() end, n - 1)
end
end
end
-- push the terminal case of argTrace into the function first
return curryHelper(function() return end, numArgs)
end
-------------------------------------------------
-- some(function(val) return val % 2 == 0 end,
-- { 2, 3, 5, 7, 11 }) --> true
function export.some(func, t, isArray)
for k, v in ((isArray or t[1] ~= nil) and ipairs or pairs)(t) do
if func(v, k, t) then
return true
end
end
return false
end
-- all(function(val) return val % 2 == 0 end,
-- { 2, 4, 8, 10, 12 }) --> true
function export.all(func, t, isArray)
for k, v in ((isArray or t[1] ~= nil) and ipairs or pairs)(t) do
if not func(v, k, t) then
return false
end
end
return true
end
function export.filter(func, t, isArray)
local new_t = {}
if isArray or t[1] ~= nil then -- array
local new_i = 0
for i, v in ipairs(t) do
if func(v, i, t) then
new_i = new_i + 1
new_t[new_i] = v
end
end
else
for k, v in pairs(t) do
if func(v, k, t) then
new_t[k] = v -- or create array?
end
end
end
return new_t
end
function export.fold(func, t, accum)
for i, v in ipairs(t) do
accum = func(accum, v, i, t)
end
return accum
end
-------------------------------
-- Fancy stuff
local function capture(...)
local vals = { n = select('#', ...), ... }
return function()
return unpack(vals, 1, vals.n)
end
end
-- Log input and output of function.
-- Receives a function and returns a modified form of that function.
function export.logReturnValues(func, prefix)
return function(...)
local inputValues = capture(...)
local returnValues = capture(func(...))
if prefix then
mw.log(prefix, inputValues())
mw.log(returnValues())
else
mw.log(inputValues())
mw.log(returnValues())
end
return returnValues()
end
end
export.log = export.logReturnValues
-- Convenience function to make all functions in a table log their input and output.
function export.logAll(t)
for k, v in pairs(t) do
if type(v) == "function" then
t[k] = export.logReturnValues(v, tostring(k))
end
end
return t
end
----- M E M O I Z A T I O N-----
-- Memoizes a function or callable table.
-- Supports any number of arguments and return values.
-- If the optional parameter `simple` is set, then the memoizer will use a faster implementation, but this is only compatible with one argument and one return value. If `simple` is set, additional arguments will be accepted, but this should only be done if those arguments will always be the same.
do
-- Sentinels.
local args, nil_, neg_0, pos_nan, neg_nan
-- Since all possible inputs need to be memoized (including true, false and nil), the table of arguments is stored with the sentinel key `args`. In addition, certain values can't be used as table keys, so they require sentinels as well: e.g. f("foo", nil, "bar") would be memoized at f["foo"][nil_]["bar"][args]. These values are:
-- nil.
-- -0, which is equivalent to 0 in most situations, but becomes "-0" on conversion to string; it also behaves differently in some operations (e.g. 1/a evaluates to inf if a is 0, but -inf if a is -0).
-- NaN and -NaN, which are the only values for which n == n is false; they only seem to differ on conversion to string ("nan" and "-nan").
local function get_key(input)
-- nil
if input == nil then
if not nil_ then
nil_ = {}
end
return nil_
-- -0
elseif input == 0 and 1 / input < 0 then
if not neg_0 then
neg_0 = {}
end
return neg_0
-- Default
elseif input == input then
return input
-- NaN
elseif format("%f", input) == "nan" then
if not pos_nan then
pos_nan = {}
end
return pos_nan
-- -NaN
elseif not neg_nan then
neg_nan = {}
end
return neg_nan
end
-- Return values are memoized as tables of return values, which are looked up using each input argument as a key, followed by args. e.g. if the input arguments were (1, 2, 3), the memo would be located at t[1][2][3][args]. args is always used as the final lookup key so that (for example) the memo for f(1, 2, 3), f[1][2][3][args], doesn't interfere with the memo for f(1, 2), f[1][2][args].
local function get_memo(memo, n, nargs, key, ...)
key = get_key(key)
local next_memo = memo[key]
if next_memo == nil then
next_memo = {}
memo[key] = next_memo
end
memo = next_memo
return n == nargs and memo or get_memo(memo, n + 1, nargs, ...)
end
-- Catch the function output values, and return the hidden variable arg (which is {...}, and available when a function has ...). We do this instead of catching the output in a table directly, because arg also contains the key "n", which is equal to select("#", ...). i.e. it's the number of arguments in ..., including any nils returned after the last non-nil value (e.g. select("#", nil) == 1, select("#") == 0, select("#", nil, "foo", nil, nil) == 4 etc.). The distinction between nil and nothing affects some native functions (e.g. tostring() throws an error, but tostring(nil) returns "nil"), so it needs to be reconstructable from the memo.
local function catch_output(...)
-- TODO uses arg; will not work if Scribunto is upgraded to Lua 5.2, 5.3, etc.
return arg
end
function export.memoize(func, simple)
if not is_callable(func) then
local _type = type(func)
error(format(
"Only functions and callable tables are memoizable. Received %s.",
_type == "table" and "non-callable table" or _type
))
end
local memo = {}
return simple and function(...)
local key = get_key(...)
local output = memo[key]
if output ~= nil then
if output == nil_ then
return nil
end
return output
end
output = func(...)
if output ~= nil then
memo[key] = output
return output
elseif not nil_ then
nil_ = {}
end
memo[key] = nil_
return nil
end or function(...)
local nargs = select("#", ...)
local memo = nargs == 0 and memo or get_memo(memo, 1, nargs, ...)
if not args then
args = {}
end
local output = memo[args]
if output == nil then
output = catch_output(func(...))
memo[args] = output
end
-- Unpack from 1 to the original number of return values (memoized as output.n); unpack returns nil for any values not in output.
return unpack(output, 1, output.n)
end
end
end
return export