mirror of
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379 lines
8.1 KiB
Lua
379 lines
8.1 KiB
Lua
--[[
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functional programming facilities
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notes:
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be careful about creating closures in hot loops.
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this is this module's achilles heel - there's no special
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syntax for closures so it's not apparent that you're suddenly
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allocating at every call
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reduce has a similar problem, but at least arguments
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there are clear!
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]]
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local path = (...):gsub("functional", "")
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local tablex = require(path .. "tablex")
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local functional = setmetatable({}, {
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__index = tablex,
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})
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--the identity function
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function functional.identity(v)
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return v
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end
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--simple sequential iteration, f is called for all elements of t
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--f can return non-nil to break the loop (and return the value)
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function functional.foreach(t, f)
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for i = 1, #t do
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local result = f(t[i], i)
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if result ~= nil then
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return result
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end
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end
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end
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--performs a left to right reduction of t using f, with seed as the initial value
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-- reduce({1, 2, 3}, 0, f) -> f(f(f(0, 1), 2), 3)
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-- (but performed iteratively, so no stack smashing)
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function functional.reduce(t, seed, f)
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for i = 1, #t do
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seed = f(seed, t[i], i)
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end
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return seed
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end
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--maps a sequence {a, b, c} -> {f(a), f(b), f(c)}
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-- (automatically drops any nils to keep a sequence, so can be used to simultaneously map and filter)
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function functional.map(t, f)
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local result = {}
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for i = 1, #t do
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local v = f(t[i], i)
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if v ~= nil then
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table.insert(result, v)
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end
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end
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return result
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end
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--maps a sequence inplace, modifying it {a, b, c} -> {f(a), f(b), f(c)}
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-- (automatically drops any nils, which can be used to simultaneously map and filter)
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function functional.map_inplace(t, f)
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local write_i = 0
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local n = #t --cache, so splitting the sequence doesn't stop iteration
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for i = 1, n do
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local v = f(t[i], i)
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if v ~= nil then
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write_i = write_i + 1
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t[write_i] = v
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end
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if i ~= write_i then
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t[i] = nil
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end
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end
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return t
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end
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--alias
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functional.remap = functional.map_inplace
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--filters a sequence
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-- returns a table containing items where f(v, i) returns truthy
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function functional.filter(t, f)
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local result = {}
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for i = 1, #t do
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local v = t[i]
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if f(v, i) then
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table.insert(result, v)
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end
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end
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return result
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end
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--filters a sequence in place, modifying it
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function functional.filter_inplace(t, f)
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local write_i = 1
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local n = #t --cache, so splitting the sequence doesn't stop iteration
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for i = 1, n do
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local v = t[i]
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if f(v, i) then
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t[write_i] = v
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write_i = write_i + 1
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end
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if i ~= write_i then
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t[i] = nil
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end
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end
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return r
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end
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-- complement of filter
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-- returns a table containing items where f(v) returns falsey
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-- nil results are included so that this is an exact complement of filter; consider using partition if you need both!
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function functional.remove_if(t, f)
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local result = {}
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for i = 1, #t do
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local v = t[i]
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if not f(v, i) then
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table.insert(result, v)
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end
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end
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return result
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end
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--partitions a sequence into two, based on filter criteria
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--simultaneous filter and remove_if
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function functional.partition(t, f)
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local a = {}
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local b = {}
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for i = 1, #t do
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local v = t[i]
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if f(v, i) then
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table.insert(a, v)
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else
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table.insert(b, v)
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end
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end
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return a, b
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end
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-- returns a table where the elements in t are grouped into sequential tables by the result of f on each element.
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-- more general than partition, but requires you to know your groups ahead of time
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-- (or use numeric grouping and pre-seed) if you want to avoid pairs!
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function functional.group_by(t, f)
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local result = {}
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for i = 1, #t do
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local v = t[i]
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local group = f(v, i)
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if result[group] == nil then
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result[group] = {}
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end
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table.insert(result[group], v)
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end
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return result
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end
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--zips two sequences together into a new table, based on another function
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--iteration limited by min(#t1, #t2)
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--function receives arguments (t1, t2, i)
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--nil results ignored
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function functional.zip(t1, t2, f)
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local ret = {}
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local limit = math.min(#t1, #t2)
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for i = 1, limit do
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local v1 = t1[i]
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local v2 = t2[i]
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local zipped = f(v1, v2, i)
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if zipped ~= nil then
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table.insert(ret, zipped)
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end
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end
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return ret
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end
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-----------------------------------------------------------
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--generating data
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-----------------------------------------------------------
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--generate data into a table
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--basically a map on numeric values from 1 to count
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--nil values are omitted in the result, as for map
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function functional.generate(count, f)
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local result = {}
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for i = 1, count do
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local v = f(i)
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if v ~= nil then
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table.insert(result, v)
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end
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end
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return result
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end
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--2d version of the above
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--note: ends up with a 1d table;
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-- if you need a 2d table, you should nest 1d generate calls
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function functional.generate_2d(width, height, f)
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local result = {}
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for y = 1, height do
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for x = 1, width do
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local v = f(x, y)
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if v ~= nil then
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table.insert(result, v)
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end
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end
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end
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return r
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end
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-----------------------------------------------------------
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--common queries and reductions
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-----------------------------------------------------------
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--true if any element of the table matches f
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function functional.any(t, f)
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for i = 1, #t do
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if f(t[i], i) then
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return true
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end
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end
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return false
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end
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--true if no element of the table matches f
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function functional.none(t, f)
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for i = 1, #t do
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if f(t[i], i) then
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return false
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end
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end
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return true
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end
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--true if all elements of the table match f
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function functional.all(t, f)
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for i = 1, #t do
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if not f(t[i], i) then
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return false
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end
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end
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return true
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end
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--counts the elements of t that match f
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function functional.count(t, f)
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local c = 0
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for i = 1, #t do
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if f(t[i], i) then
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c = c + 1
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end
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end
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return c
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end
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--true if the table contains element e
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function functional.contains(t, e)
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for i = 1, #t do
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if t[i] == e then
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return true
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end
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end
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return false
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end
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--return the numeric sum of all elements of t
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function functional.sum(t)
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local c = 0
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for i = 1, #t do
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c = c + t[i]
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end
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return c
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end
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--return the numeric mean of all elements of t
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function functional.mean(t)
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local len = #t
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if len == 0 then
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return 0
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end
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return functional.sum(t) / len
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end
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--return the minimum and maximum of t in one pass
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--or zero for both if t is empty
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-- (would perhaps more correctly be math.huge, -math.huge
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-- but that tends to be surprising/annoying in practice)
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function functional.minmax(t)
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local n = #t
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if n == 0 then
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return 0, 0
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end
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local max = t[1]
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local min = t[1]
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for i = 2, n do
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local v = t[i]
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min = math.min(min, v)
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max = math.max(max, v)
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end
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return min, max
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end
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--return the maximum element of t or zero if t is empty
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function functional.max(t)
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local min, max = functional.minmax(t)
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return max
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end
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--return the minimum element of t or zero if t is empty
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function functional.min(t)
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local min, max = functional.minmax(t)
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return min
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end
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--return the element of the table that results in the lowest numeric value
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--(function receives element and index respectively)
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function functional.find_min(t, f)
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local current = nil
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local current_min = math.huge
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for i = 1, #t do
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local e = t[i]
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local v = f(e, i)
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if v and v < current_min then
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current_min = v
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current = e
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end
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end
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return current
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end
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--return the element of the table that results in the greatest numeric value
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--(function receives element and index respectively)
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function functional.find_max(t, f)
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local current = nil
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local current_max = -math.huge
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for i = 1, #t do
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local e = t[i]
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local v = f(e, i)
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if v and v > current_max then
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current_max = v
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current = e
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end
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end
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return current
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end
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--alias
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functional.find_best = functional.find_max
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--return the element of the table that results in the value nearest to the passed value
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--todo: optimise, inline as this generates a closure each time
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function functional.find_nearest(t, f, target)
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local current = nil
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local current_min = math.huge
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for i = 1, #t do
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local e = t[i]
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local v = math.abs(f(e, i) - target)
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if v and v < current_min then
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current_min = v
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current = e
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if v == 0 then
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break
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end
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end
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end
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return current
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end
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--return the first element of the table that results in a true filter
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function functional.find_match(t, f)
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for i = 1, #t do
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local v = t[i]
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if f(v) then
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return v
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end
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end
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return nil
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end
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return functional
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