Create suite of interdependent Lua files without affecting the global namespace

Question

tl;dr: What design pattern allows you to split Lua code over multiple files that need to share some information without affecting the global table?

Background

It is considered bad form to create a library in Lua where requiring the library affects the global namespace:

--> somelib.lua <--
SomeLib = { ... }

--> usercode.lua <--
require 'somelib'
print(SomeLib) -- global key created == bad

Instead, it is considered a best practice to create a library that uses local variables and then returns them for the user to assign as they see fit:

--> somelib.lua <--
local SomeLib = { ... }
return SomeLib

--> usercode.lua <--
local theLib = require 'somelib' -- consumers name lib as they wish == good

The above pattern works fine when using a single file. However, this becomes considerably harder when you have multiple files that reference each other.

Concrete Example

How can you rewrite the following suite of files so that the assertions all pass? Ideally the rewrites will leave the same files on disk and responsibilities for each file. (Rewriting by merging all code into a single file is effective, but not helpful ;)

--> test_usage.lua <--
require 'master'

assert(MASTER.Simple)
assert(MASTER.simple)
assert(MASTER.Shared)
assert(MASTER.Shared.go1)
assert(MASTER.Shared.go2)
assert(MASTER.Simple.ref1()==MASTER.Multi1)
assert(pcall(MASTER.Simple.ref2))
assert(_G.MASTER == nil)                   -- Does not currently pass 

 

--> master.lua <--
MASTER = {}
require 'simple'
require 'multi'
require 'shared1'
require 'shared2'
require 'shared3'
require 'reference'

--> simple.lua <--
MASTER.Simple = {}
function MASTER:simple() end

--> multi.lua <--
MASTER.Multi1 = {}
MASTER.Multi2 = {}

--> shared1.lua <--
MASTER.Shared = {}

--> shared2.lua <--
function MASTER.Shared:go1() end

--> shared3.lua <--
function MASTER.Shared:go2() end

--> reference.lua <--
function MASTER.Simple:ref1() return MASTER.Multi1 end
function MASTER.Simple:ref2() MASTER:simple()      end

---

Failure: Setting the Environment

I thought to solve the problem by setting the environment to my master table with a self-reference. This does not work when calling functions like require however, as they change the environment back:

--> master.lua <--
foo = "original"
local MASTER = setmetatable({foo="captured"},{__index=_G})
MASTER.MASTER = MASTER
setfenv(1,MASTER)
require 'simple'

--> simple.lua <--
print(foo)         --> "original"
MASTER.Simple = {} --> attempt to index global 'MASTER' (a nil value)

Answer 1

You are giving master.lua two responsibilities:

1. It defines the common module table
2. It imports all of the submodules

Instead you should create a separate module for (1) and import it in all of the submodules:

--> common.lua <--
return {}

--> master.lua <--
require 'simple'
require 'multi'
require 'shared1'
require 'shared2'
require 'shared3'
require 'reference'
return require'common' -- return the common table

--> simple.lua <--
local MASTER = require'common' -- import the common table
MASTER.Simple = {}
function MASTER:simple() end

etc.

Finally, change the first line of test_usage.lua to use a local variable:

--> test_usage.lua <--
local MASTER = require'master'
...

The tests should now pass.

Answer 2

I have a systematic way to solve that problem. I have refactored your module in a Git repository to show you how it works: https://github.com/catwell/dont-touch-global-namespace/commit/34b390fa34931464c1dc6f32a26dc4b27d5ebd69

The idea is that you should have the sub-parts return a function that takes the main module as an argument.

If you cheat by opening the source files in master.lua, append a header and a footer and use loadstring, you can even use them unmodified (only master.lua has to be modified, but it is more complex). Personally, I prefer to keep it explicit, which is what I have done here. I don't like magic :)

EDIT: it is very close to Andrew Stark's first solution, except I patch the MASTER table directly in the sub-modules. The advantage is that you can define several things at once, like in your simple.lua, multi.lua and reference.lua files.

Answer 3

We can solve the problem by changing the master file to modify the environment in which all required code is run:

--> master.lua <--
local m = {}                        -- The actual master table
local env = getfenv(0)              -- The current environment
local sandbox = { MASTER=m }        -- Environment for all requires
setmetatable(sandbox,{__index=env}) -- ...also exposes read access to real env

setfenv(0,sandbox)                  -- Use the sandbox as the environment
-- require all files as before
setfenv(0,env)                      -- Restore the original environment

return m

The sandbox is an empty table that inherits values from _G but that also has a reference to the MASTER table, simulating a global from the perspective of later code. Using this sandbox as the environment causes all later requires to evaluate their "global" code in this context.

We save the real environment for later restoration, so that we don't mess with any later code that might want to actually set a global variable.

Answer 4

The question concerns:

1. Not polluting the global space when making modules.
2. Making modules in such a way that they might be split into multiple files, for maintenance reasons, among others.

My solution to the above problem lies in tweaking the "return as table" idiom in Lua such that instead of returning a table, you return a function that returns a table, when state needs to be passed between sub-modules.

This works well for sub-modules that are entirely dependent upon some root-module. If they are loaded independently, then they require the user to know that they need to call the module before they can use it. This is unlike every other module that has a collection of methods, ready to go from local a = require('a').

At any rate, this works like so:

--callbacks.lua a -- sub-module
return function(self)
    local callbacks = {}
    callbacks.StartElement =  function(parser, elementName, attributes)
        local res = {}
            local stack = self.stack

    ---awesome stuff for about 150 lines...

    return callbacks
end

To use it, you can...

local make_callbacks = require'callbacks'
self.callbacks = make_callbacks(self)

Or, better yet, simply call the return value of require when assigning the callback table to the parent module, like so:

self.callbacks = require'trms.xml.callbacks'(self)

Most often, I try not to do this. If I'm passing state or self between submodules, I find that I'm often doing it wrong. My internal policy is that if I'm doing something that is highly-related to another file, I might be okay. More likely, I'm putting something in the wrong spot and there is a way to do it without passing anything between modules.

The reason that I don't like this is that which I pass by table has methods and properties unseen in the file that I am working within. I'm not free to refactor the internal implementation of one of my files, without horking the others. So, I humbly suggest that this idiom is a yellow flag, but probably not a red one. :)

While this solves the problem of state-sharing without globals, it doesn't really protect the user from the accidental omission of local. If I may speak to that implied question...

The first thing that I do is remove access to the global environment from my module. Remembering that it's only available as long as I don't reset _ENV, reseting it is the first thing that I do. This is done by packing only what is needed into a new _ENV table.

_ENV = {print = print, 
    pairs = pairs, --etc
}

However, constantly re-typing all of the things that I need from lua into each file is a giant, error-prone pain. To avoid this, I make one file in my module's base directory and use it as the home for all of my modules' and sub-modules' common environments. I call it _ENV.lua.

Note: I cannot use "init.lua" or any other root-module for this purpose, because I need to be able to load it from the sub-modules, which are being loaded by the root-module, which loads the sub-modules, which are...

My abbreviated _ENV.lua file looks something like the following:

--_ENV.lua
_ENV = {
    type = type,  pairs = pairs,  ipairs = ipairs,  next = next,  print =
    print,  require = require, io = io,  table = table,  string = string,        
    lxp = require"lxp", lfs = require"lfs",
    socket = require("socket"), lpeg = require'lpeg', --etc..
}
return _ENV

With this file, I now have a common base from which to work. All of my other modules load this first, using the following command:

 _ENV = require'root_mod._ENV' --where root_mod is the base of my module.

This facility was critical for me, for two reasons. First, it keeps me out of global space. If I see that I am missing something from the global environment _G (took me a surprisingly long time before I saw that I didn't have tostring!), I can go back into my _ENV.lua file and add it. As a required file, this only gets loaded one time, so having it applied to all of my submodules is 0 calories.

Second, I find that it gives me everything that I really needed for using the "return module as table" protocol, with only a few exceptions where "return a function that returns a table" is needed.

Answer 5

TL;DR: Don't return the module, set package.loaded[...] = your_module as early as possible (can still be empty), then just require the module in submodules and it will be properly shared.

---

The clean way to do this is to explicitly register the module and not rely on require to implicitly register it at the end. The documentation says:

require (modname)

Loads the given module. The function starts by looking into the package.loaded table to determine whether modname is already loaded. If it is, then require returns the value stored at package.loaded[modname]. [This gets you the caching behavior that every file is run only once.] Otherwise, it tries to find a loader for the module. [And one of the searchers is looking for Lua files to run, which gets you the usual file loading behavior.]

[…]

Once a loader is found, require calls the loader with two arguments: modname and an extra value dependent on how it got the loader. (If the loader came from a file, this extra value is the file name.) If the loader returns any non-nil value [e.g. your file returns the module table], require assigns the returned value to package.loaded[modname]. If the loader does not return a non-nil value and has not assigned any value to package.loaded[modname], then require assigns true to this entry. In any case, require returns the final value of package.loaded[modname].

_{(emphasis, [comments] added by me.)}

With the return mymodule idiom, the caching behavior fails if you have a loop in your dependencies – the cache is updated too late. (As a result, files may be loaded several times (you may even get endless loops!) and sharing will fail.) But explicitly saying

local _M = { }           -- your module, however you define / name it
package.loaded[...] = _M -- recall: require calls loader( modname, something )
                 -- so `...` is `modname, something` which is shortened
                 -- to just `modname` because only one value is used

immediately updates the cache, so that other modules can already require your module before its main chunk returned. (Of course, at that time they can only actually use what's already been defined. But that's not usually a problem.)

The package.loaded[...] = mymodule approach works in 5.1–5.3 (incl. LuaJIT).

---

For your example, you would adjust the start of master.lua to

1c1,2
< MASTER = {}
---
> local MASTER = {}
> package.loaded[...] = MASTER

and for all other files

0a1
> local MASTER = require "master"

and you're done.