--[[ batteries for lua a collection of helpful code to get your project off the ground faster ]] local path = ... local function require_relative(p) return require(table.concat({path, p}, ".")) end --build the module local _batteries = { -- class = require_relative("class"), -- assert = require_relative("assert"), --extension libraries mathx = require_relative("mathx"), tablex = require_relative("tablex"), stringx = require_relative("stringx"), --sorting routines sort = require_relative("sort"), -- functional = require_relative("functional"), --collections sequence = require_relative("sequence"), set = require_relative("set"), --geom vec2 = require_relative("vec2"), vec3 = require_relative("vec3"), intersect = require_relative("intersect"), -- unique_mapping = require_relative("unique_mapping"), state_machine = require_relative("state_machine"), async = require_relative("async"), manual_gc = require_relative("manual_gc"), colour = require_relative("colour"), } --assign aliases for _, alias in ipairs({ {"mathx", "math"}, {"tablex", "table"}, {"stringx", "string"}, {"sort", "stable_sort"}, {"colour", "color"}, }) do _batteries[alias[2]] = _batteries[alias[1]] end --easy export globally if required function _batteries:export() --export all key strings globally, if doesn't always exist for k, v in pairs(self) do if not _G[k] then _G[k] = v end end --overlay tablex and functional and sort routines onto table self.tablex.overlay(table, self.tablex) --now we can use it through table directly table.overlay(table, self.functional) self.sort:export() --overlay onto global math table table.overlay(math, self.mathx) --overlay onto string table.overlay(string, self.stringx) --overwrite assert wholesale (it's compatible) assert = self.assert return self end return _batteries