batteries/tablex.lua

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--[[
extra table routines
]]
--apply prototype to module if it isn't the global table
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--so it works "as if" it was the global table api
--upgraded with these routines
local path = (...):gsub(".tablex", ".")
local assert = require(path .. "assert")
local tablex = setmetatable({}, {
__index = table,
})
--alias
tablex.join = tablex.concat
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--return the front element of a table
function tablex.front(t)
return t[1]
end
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--return the back element of a table
function tablex.back(t)
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return t[#t]
end
--remove the back element of a table and return it
function tablex.pop(t)
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return table.remove(t)
end
--insert to the back of a table, returning the table for possible chaining
function tablex.push(t, v)
table.insert(t, v)
return t
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end
--remove the front element of a table and return it
function tablex.shift(t)
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return table.remove(t, 1)
end
--insert to the front of a table, returning the table for possible chaining
function tablex.unshift(t, v)
table.insert(t, 1, v)
return t
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end
--insert to the first position before the first larger element in the table
--if this is used on an already sorted table, the table will remain sorted and not need re-sorting
--todo: make it do binary search rather than linear to improve performance
--return the table for possible chaining
function tablex.insert_sorted(t, v, less)
local inserted = false
for i = 1, #t do
if less(v, t[i]) then
table.insert(t, i, v)
inserted = true
break
end
end
if not inserted then
table.insert(t, v)
end
return t
end
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--find the index in a sequential table that a resides at
--or nil if nothing was found
function tablex.index_of(t, a)
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if a == nil then return nil end
for i,b in ipairs(t) do
if a == b then
return i
end
end
return nil
end
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--find the key in a keyed table that a resides at
--or nil if nothing was found
function tablex.key_of(t, a)
if a == nil then return nil end
for k, v in pairs(t) do
if a == v then
return k
end
end
return nil
end
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--remove the first instance of value from a table (linear search)
--returns true if the value was removed, else false
function tablex.remove_value(t, a)
local i = tablex.index_of(t, a)
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if i then
table.remove(t, i)
return true
end
return false
end
--add a value to a table if it doesn't already exist (linear search)
--returns true if the value was added, else false
function tablex.add_value(t, a)
local i = tablex.index_of(t, a)
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if not i then
table.insert(t, a)
return true
end
return false
end
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--note: keyed versions of the above aren't required; you can't double
--up values under keys
--helper for optionally passed random; defaults to love.math.random if present, otherwise math.random
local _global_random = math.random
if love and love.math and love.math.random then
_global_random = love.math.random
end
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local function _random(min, max, r)
return r and r:random(min, max)
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or _global_random(min, max)
end
--pick a random value from a table (or nil if it's empty)
function tablex.pick_random(t, r)
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if #t == 0 then
return nil
end
return t[_random(1, #t, r)]
end
--shuffle the order of a table
function tablex.shuffle(t, r)
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for i = 1, #t do
local j = _random(1, #t, r)
t[i], t[j] = t[j], t[i]
end
return t
end
--reverse the order of a table
function tablex.reverse(t)
for i = 1, #t / 2 do
local j = #t - i + 1
t[i], t[j] = t[j], t[i]
end
return t
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end
--trim a table to a certain maximum length
function tablex.trim(t, l)
while #t > l do
table.remove(t)
end
return t
end
--collect all keys of a table into a sequential table
--(useful if you need to iterate non-changing keys often and want an nyi tradeoff;
-- this call will be slow but then following iterations can use ipairs)
function tablex.keys(t)
local r = {}
for k,v in pairs(t) do
table.insert(r, k)
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end
return r
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end
--collect all values of a keyed table into a sequential table
--(shallow copy if it's already sequential)
function tablex.values(t)
local r = {}
for k,v in pairs(t) do
table.insert(r, v)
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end
return r
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end
--append sequence t2 into t1, modifying t1
function tablex.append_inplace(t1, t2)
for i,v in ipairs(t2) do
table.insert(t1, v)
end
return t1
end
--return a new sequence with the elements of both t1 and t2
function tablex.append(t1, t2)
local r = {}
tablex.append_inplace(r, t1)
tablex.append_inplace(r, t2)
return r
end
--return a copy of a sequence with all duplicates removed
-- causes a little "extra" gc churn of one table to track the duplicates internally
function tablex.dedupe(t)
local seen = {}
local r = {}
for i,v in ipairs(t) do
if not seen[v] then
seen[v] = true
table.insert(r, v)
end
end
return r
end
--(might already exist depending on luajit)
if table.clear then
--import from global if it exists
tablex.clear = table.clear
else
--remove all values from a table
--useful when multiple references are being held
--so you cannot just create a new table
function tablex.clear(t)
assert:type(t, "table", "tablex.clear - t", 1)
local k = next(t)
while k ~= nil do
t[k] = nil
k = next(t)
end
end
end
--note:
-- copies and overlays are currently not satisfactory
--
-- i feel that copy especially tries to do too much and
-- probably they should be split into separate functions
-- to be both more explicit and performant, ie
--
-- shallow_copy, deep_copy, shallow_overlay, deep_overlay
--
-- input is welcome on this :)
--copy a table
-- deep_or_into is either:
-- a boolean value, used as deep flag directly
-- or a table to copy into, which implies a deep copy
-- if deep specified:
-- calls copy method of member directly if it exists
-- and recurses into all "normal" table children
-- if into specified, copies into that table
-- but doesn't clear anything out
-- (useful for deep overlays and avoiding garbage)
function tablex.copy(t, deep_or_into)
assert:type(t, "table", "tablex.copy - t", 1)
local is_bool = type(deep_or_into) == "boolean"
local is_table = type(deep_or_into) == "table"
local deep = is_bool and deep_or_into or is_table
local into = is_table and deep_or_into or {}
for k, v in pairs(t) do
if deep and type(v) == "table" then
if type(v.copy) == "function" then
v = v:copy()
else
v = tablex.copy(v, deep)
end
end
into[k] = v
end
return into
end
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--overlay tables directly onto one another, shallow only
--takes as many tables as required,
--overlays them in passed order onto the first,
--and returns the first table with the overlay(s) applied
function tablex.overlay(a, b, ...)
assert:type(a, "table", "tablex.overlay - a", 1)
assert:type(b, "table", "tablex.overlay - b", 1)
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for k,v in pairs(b) do
a[k] = v
end
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if ... then
return tablex.overlay(a, ...)
end
return a
end
--collapse the first level of a table into a new table of reduced dimensionality
--will collapse {{1, 2}, 3, {4, 5, 6}} into {1, 2, 3, 4, 5, 6}
--useful when collating multiple result sets, or when you got 2d data when you wanted 1d data.
--in the former case you may just want to append_inplace though :)
--note that non-tabular elements in the base level are preserved,
-- but _all_ tables are collapsed; this includes any table-based types (eg a batteries.vec2),
-- so they can't exist in the base level
-- (... or at least, their non-ipairs members won't survive the collapse)
function tablex.collapse(t)
assert:type(t, "table", "tablex.collapse - t", 1)
local r = {}
for _, v in ipairs(t) do
if type(v) == "table" then
for _, v in ipairs(v) do
table.insert(r, v)
end
else
table.insert(r, v)
end
end
return r
end
--alias
tablex.flatten = tablex.collapse
--faster unpacking for known-length tables up to 8
--gets around nyi in luajit
--note: you can use a larger unpack than you need as the rest
-- can be discarded, but it "feels dirty" :)
function tablex.unpack2(t)
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return t[1], t[2]
end
function tablex.unpack3(t)
return t[1], t[2], t[3]
end
function tablex.unpack4(t)
return t[1], t[2], t[3], t[4]
end
function tablex.unpack5(t)
return t[1], t[2], t[3], t[4], t[5]
end
function tablex.unpack6(t)
return t[1], t[2], t[3], t[4], t[5], t[6]
end
function tablex.unpack7(t)
return t[1], t[2], t[3], t[4], t[5], t[6], t[7]
end
function tablex.unpack8(t)
return t[1], t[2], t[3], t[4], t[5], t[6], t[7], t[8]
end
return tablex