You have your way. I have my way. As for the right way, the correct way, and the only way, it does not exist. — Friedrich Nietzsche

Enhanced runtime powers

In an earlier article on beginning the process of breaking up a long vimrc into a ~/.vim runtime directory, we hinted at a few more possibilities for leveraging the runtime directory structure:

Disabling specific parts of the stock runtime directory Writing custom compiler definitions Automatically loading functions only when they’re called

In this followup article, we’ll go through each of these, further demonstrating how you can use the 'runtimepath' structure and logic to your benefit.

That’s nice, but it’s wrong

Sometimes, you just plain don’t like something that the stock runtime files bundled with Vim do. You don’t want to edit the included runtime files directly, because they’ll just get overwritten again the next time you upgrade Vim. You don’t want to maintain a hacked-up copy of the full runtime files in your own configuration, either. It would be best to find a way to work around the unwanted lines. Fortunately, 'runtimepath' lets us do exactly that.

Variable options

Accommodating plugin authors will sometimes provide variable options, allowing you to tweak the way the plugin works. You should always look for these first; you may not even need to read any Vim script to do what you want, as the relevant options are often described in :help topics.

For example, the stock indenting behavior for the html filetype does not add a level of indentation after opening a paragraph block with a <p> tag, even though it does add indentation after an element like <body> . Fortunately, there’s a documented option variable that modifies this behavior named html_indent_inctags , which we can define in ~/.vim/indent/html.vim . This will get loaded just before $VIMRUNTIME/indent/html.vim :

let html_indent_inctags = 'p'

This changes the behavior in the way we need. To be tidy, we should clear the variable away again afterwards in ~/.vim/after/indent/html.vim , since after the stock file has run, this global variable has done its job:

unlet html_indent_inctags

Reversing unwanted configuration

Other times, the behavior annoying you may be just a little thing that’s not directly configurable, but it’s still easy enough to reverse it.

For example, if you’re a Perl developer, you might find it annoying that when editing buffers with the perl filetype, the # comment leader is automatically added when you press “Enter” in insert mode while composing a comment. You would rather type (or not type) it yourself, as the python filetype does by default.

You might check the Vim documentation, and find this unwanted behavior is caused by the r flag’s presence in the value of the 'formatoptions' option. You didn’t set that in your vimrc, and it only happens to buffers with the perl filetype, so you check $VIMRUNTIME/ftplugin/perl.vim to find what’s setting the unwanted flag.

Sure enough, you find this line:

setlocal formatoptions+=crqol

It doesn’t look like there’s a variable option you can set to prevent the setting, so instead you add in a couple of lines to ~/.vim/after/ftplugin/perl.vim to correct it after the stock plugin has loaded:

setlocal formatoptions-=r

You reload your perl buffer, and examine the value of 'formatoptions' ; sure enough, the r flag has gone, and the unwanted behavior has stopped.

:set formatoptions? formatoptions=jcqol

Note that you didn’t need to add a b:undo_ftplugin command in this case, because the stock filetype plugin already includes a revert command for 'formatoptions' , so you can fix this problem with just one line.

Blocking unwanted configuration

Maybe it’s not just a little thing, though. Perhaps a filetype plugin or indent plugin for a given language just does everything completely wrong for you.

For example, suppose you’re annoyed with the stock indenting behavior for php . You can’t predict where you’ll end up on any new line, you can’t configure it to make it work the way you want it to, and it’s too frustrating to deal with it. Rather than carefully undoing each of the plugin’s settings, you decide it would be better if all near-1000 lines of $VIMRUNTIME/indent/php.vim just didn’t load at all, so you can go back to plain old 'autoindent' until you can find or write something better.

Fortunately, at the very beginning of the disliked file, we find a load guard:

if exists("b:did_indent") finish endif let b:did_indent = 1

This cuts the whole script off at the :finish command if b:did_indent has been set. This suggests that if we set that variable before this script loads, we could avoid its mess entirely. We add three lines to a new file in ~/.vim/indent/php.vim , and we’re done:

let b:did_indent = 1 setlocal autoindent let b:undo_indent = 'setlocal autoindent<'

The stock $VIMRUNTIME/indent/php.vim still loads after this script, and will still appear in the output of :scriptnames , but execution never gets past the load guard, leaving our single setting of 'autoindent' intact.

In doing the above, we’ve now replaced the php indent plugin with our own. Perhaps we’ll refine it a bit more later, or write an 'indentexpr' for it that we prefer.

Advanced example

Sometimes, working around this type of issue requires a little more careful analysis of the order in which things are sourced, and a bit more tweaking.

For example, suppose you don’t like the fact that the html filetype plugin is loaded for markdown buffers, and set out to prevent this behavior. You hope that there’s going to be an option that allows you to do this, and you start by looking in $VIMRUNTIME/ftplugin/markdown.vim .

Unfortunately, in that file you find that the behavior is hard-coded, and runs unconditionally:

runtime! ftplugin/html.vim ftplugin/html_*.vim ftplugin/html/*.vim

That line runs all the filetype plugins it can find for the html filetype. We can’t coax the stock plugin into disabling the unwanted behavior, but we don’t want to completely disable the stock plugin for markdown or html as primary buffer filetypes, either. What to do?

Perhaps there’s a way to disable just the filetype plugins for html , and only when the active buffer is actually a markdown buffer? Looking at $VIMRUNTIME/ftplugin/html.vim , we notice our old friend the load guard:

if exists("b:did_ftplugin") | finish | endif

It looks like if we can set b:did_ftplugin immediately before this script loads, we can meet our goal. Sure enough, putting this in ~/.vim/ftplugin/html.vim does the trick:

if &filetype ==# 'markdown' let b:did_ftplugin = 1 endif

Checker, linter, candlestick-maker

One of the lesser-used subdirectories in the Vim runtime directory structure is compiler . This is for files that set the 'makeprg' and 'errorformat' options so that a useful :make or :lmake command runs for the current buffer, and any output or errors that the program returns are correctly interpreted according to the value of 'errorformat' for use in the quickfix or location lists. The files defining these two options are sourced using the :compiler command.

Vim includes some compiler definitions in its runtime files, and not just for C or C++ compilers; there’s $VIMRUNTIME/compiler/tidy.vim for HTML checking, and $VIMRUNTIME/compiler/perl.vim for Perl syntax checking, to name just a couple. You can also write your own definitions, and put them in ~/.vim/compiler .

Note that there’s no particular need for the program named by 'makeprg' to have anything to do with an actual make program, nor a compiler for a compiled language; it can just as easily be a syntax checker to identify erroneous constructs, or a linter to point out bad practices that aren’t necessarily errors. What the :compiler command provides for the user is an abstraction for configuring these, and switching between them cleanly.

Switching between compilers

As an example to make the usefulness of this clear, consider how we might like to specify 'makeprg' and 'errorformat' for editing shell scripts written for GNU Bash. Bash can be an awkward and difficult language, and if we have to write a lot of it, ideally we’d want a linter as well as a syntax checker to let us know if we write anything potentially erroneous.

Here are two different tools for syntax checking and linting Bash, both with potential as compiler definitions:

bash -n will check the syntax of a shell script, to establish whether it will run at all.

shellcheck -s bash will lint it, looking for bad practices in a shell script that might misbehave in unexpected ways.

Ideally, a Bash programmer would want to be able to run either of these programs, switching between them as needed, without losing the benefit of showing the output in the quickfix or location list when :make or :lmake is run. So, let’s write a script to accommodate that.

First of all, because this logic is specific to the sh filetype, we decide to put it in a filetype plugin in ~/.vim/after/ftplugin/sh , perhaps named compiler.vim . This is because there’s no point enabling switching between these two programs for any other filetype.

After experimenting with the values for 'makeprg' and 'errorformat' , and testing them by running :make on a few Bash files and inspecting the output in the quickfix list with :copen , we find the following values work well:

" Bash makeprg=bash\ -n\ --\ %:S errorformat=%f:\ line\ %l:\ %m " ShellCheck makeprg=shellcheck\ -s\ bash\ -f\ gcc\ --\ %:S errorformat=%f:%l:%c:\ %m\ [SC%n]

To switch between the two sets of values, we might set up functions and mappings like so, using ,b for bash and ,s for shellcheck :

function! s:SwitchCompilerBash() abort setlocal makeprg=bash\ -n\ --\ %:S setlocal errorformat=%f:\ line\ %l:\ %m endfunction function! s:SwitchCompilerShellCheck() abort setlocal makeprg=shellcheck\ -s\ bash\ -f\ gcc\ --\ %:S setlocal errorformat=%f:%l:%c:\ %m\ [SC%n] endfunction nnoremap <buffer> ,b \ :<C-U>call <SID>SwitchCompilerBash()<CR> nnoremap <buffer> ,s \ :<C-U>call <SID>SwitchCompilerShellCheck()<CR> let b:undo_ftplugin .= '|setlocal makeprg< errorformat<' \ . '|nunmap <buffer> ,b' \ . '|nunmap <buffer> ,s'

This works, but there’s quite a lot going on here for something that seems like it should be simpler. It would be nice to avoid all the script-variable function scaffolding in particular, preferably without trying to put the complex :setlocal commands into the right hand side of the mappings.

Separating compiler definitions out

The :compiler command allows us to separate this logic out somewhat, by putting the options settings in separate files in ~/.vim/compiler .

Our ~/.vim/compiler/bash.vim file might look like this:

setlocal makeprg=bash\ -n\ --\ %:S setlocal errorformat=%f:\ line\ %l:\ %m

Similarly, our ~/.vim/compiler/shellcheck.vim might look like this:

setlocal makeprg=shellcheck\ -s\ bash\ -f\ gcc\ --\ %:S setlocal errorformat=%f:%l:%c:\ %m\ [SC%n]

With these files installed, we can test switching between them with :compiler :

:compiler bash :set errorformat? makeprg? errorformat=%f: line %l: %m makeprg=bash -n -- %:S :compiler shellcheck :set errorformat? makeprg? errorformat=%f:%l:%c: %m [SC%n] makeprg=shellcheck -s bash -f gcc -- %:S

This simple abstraction allows us to refactor the compiler-switching code in our filetype plugin to the following, foregoing any need for the functions:

nnoremap <buffer> ,b \ :<C-U>compiler bash<CR> nnoremap <buffer> ,s \ :<C-U>compiler shellcheck<CR> let b:undo_ftplugin .= '|setlocal makeprg< errorformat<' \ . '|nunmap <buffer> ,b' \ . '|nunmap <buffer> ,s'

Note that the above compiler file examples are greatly simplified from the recommended practices in :help write-compiler-plugin . For example, you would ideally use the :CompilerSet command for the options settings. However, for the purposes of configuring things in your personal ~/.vim , this is mostly a detail; you may prefer to keep things simple.

Automatic for the people

If a particular script defines long functions that are not actually called that often, it can make Vim slow to start. This may not be so much of a problem if the functionality is really useful and will always be needed promptly in every editor session. For functions that are called less often, it would be preferable to arrange for function definitions to be loaded only at the time they’re actually needed, to keep Vim startup snappy. This would be particularly applicable for :map and :autocmd targets that are specific to certain filetypes, especially so if they’re not needed very often.

We’ve already seen that putting such code in filetype-specific plugins where possible is a great start. We can build further on this with another useful application of Vim’s runtime directory structure—the autoload system. This approach loads functions at the time they’re called, just before executing them.

Consider the following script-local variable s:pattern , and functions s:Format() , s:Bump() , s:BumpMinor() , and s:BumpMajor() , from a filetype plugin, perl_version_bump.vim . This plugin does something very specific: it finds and increments version numbers in buffers of the perl filetype.

let s:pattern = '\m\C^' \ . '\(our\s\+\$VERSION\s*=\D*\)' \ . '\(\d\+\)\.\(\d\+\)' \ . '\(.*\)' " Helper function to format a number without decreasing its digit count function! s:Format(old, new) abort return repeat('0', strlen(a:old) - strlen(a:new)).a:new endfunction " Version number bumper function! s:Bump(major) abort let l:view = winsaveview() let l:li = search(s:pattern) if !l:li echomsg 'No version number declaration found' return endif let l:matches = matchlist(getline(l:li), s:pattern) let [l:lvalue, l:major, l:minor, l:rest] \ = matchlist(getline(l:li), s:pattern)[1:4] if a:major let l:major = s:Format(l:major, l:major + 1) let l:minor = s:Format(l:minor, 0) else let l:minor = s:Format(l:minor, l:minor + 1) endif let l:version = l:major.'.'.l:minor call setline(l:li, l:lvalue.l:version.l:rest) if a:major echomsg 'Bumped major $VERSION: '.l:version else echomsg 'Bumped minor $VERSION: '.l:version endif call winrestview(l:view) endfunction " Interface functions function! s:BumpMinor() abort call s:Bump(0) endfunction function! s:BumpMajor() abort call s:Bump(1) endfunction

There’s no way you would need to load such niche code every time Vim starts. You probably wouldn’t even want all of it to load it every time you edit a Perl file—after all, how likely are you to bump the version number of a script every time you look at it? We’d like to arrange to load all this only when it’s actually needed.

Autoloading from mappings to functions

The version bumping plugin ends with mapping targets to its last two functions:

nnoremap <buffer> <Plug>(PerlBumpMinor) \ :<C-U>call <SID>BumpMinor()<CR> nnoremap <buffer> <Plug>(PerlBumpMajor) \ :<C-U>call <SID>BumpMajor()<CR>

These <Plug> targets need to be mapped to by the user’s configuration in ~/.vim/after/ftplugin/perl.vim , with the actual keys they want to use. Here, we’ve used ,b and ,B :

nmap <buffer> ,b <Plug>(PerlBumpMinor) nmap <buffer> ,B <Plug>(PerlBumpMajor)

Ideally, you’d define the <Plug> mapping targets in such a way that Vim knows where to load definitions for the functions they call, and does so only when they’re actually called. Once loaded, the functions and any variables would then stay defined as normal for the rest of the Vim session—enabling a kind of dynamic plugin.

Autoloading identifier prefixes

Indeed, this is exactly what autoload makes possible. We can put the entirety of the script functions excluding the mapping targets into a file ~/.vim/autoload/perl/version/bump.vim , changing only the names of the last two functions to include the # -separated path prefix syntax for autoloading:

" Interface functions function! perl#version#bump#BumpMinor() abort call s:Bump(0) endfunction function! perl#version#bump#BumpMajor() abort call s:Bump(1) endfunction

The prefix perl#version#bump# for the new function names specifies the relative runtime path at which Vim should look for the file containing the function definitions. All of the # symbols bar the last one are replaced with filesystem slashes / , and the last one is replaced with .vim . This is how the autoloading process finds the function’s definition at the time it needs it.

Here are some other examples of autoloaded function names, and where in ~/.vim that Vim looks for them:

foo#Example() goes in ~/.vim/autoload/foo.vim

foo#bar#baz#Example() goes in ~/.vim/autoload/foo/bar/baz.vim

foo#bar#() goes in ~/.vim/autoload/foo/bar.vim

Per the last example above, note that there doesn’t actually have to be a function name following the final # . You can use this to load only one function per file, if you wish.

Similar to the previous :runtime wrappers we’ve observed, Vim looks through any autoload subdirectories of each directory in 'runtimepath' , in order, until a file with a relative path corresponding to the called function’s prefix is found and sourced.

Autoloading encapsulation

You might be wondering why we only have to rename the last two functions in our example. How can this still work if the s:pattern variable and the s:Format() and s:Bump() functions are still using the s: prefix for script-local scope?

These definitions are still loaded as part of the autoloaded file, even though they weren’t explicitly referenced or called themselves. They are thereby pulled in indirectly by perl#version#bump#BumpMinor() or perl#version#bump#BumpMajor() being autoloaded, and remain visible to those functions in the same script-level scope. Because they’re only used internally by our mapped functions, and don’t need to be callable from outside the script, there’s no need to rename them, and we still get the benefit of deferring their loading.

In object-oriented terms, you can therefore think of the autoloaded functions as the interface to the plugin, and any script-local variables or functions that they use as the plugin’s implementation.

Reducing a plugin to just a few lines

With the above restructuring done, we just need to adjust the <Plug> mappings still left in the ftplugin to use the new function names. This filetype plugin now only loads two mappings when the buffer’s 'filetype' is set to perl . Here is the ftplugin file in its entirety:

nnoremap <buffer> <Plug>(PerlBumpMinor) \ :<C-U>call perl#version#bump#BumpMinor()<CR> nnoremap <buffer> <Plug>(PerlBumpMajor) \ :<C-U>call perl#version#bump#BumpMajor()<CR> let b:undo_ftplugin .= '|nunmap <buffer> <Plug>(PerlBumpMinor)' \ . '|nunmap <buffer> <Plug>(PerlBumpMajor)'

Applying this process rigorously can shave a lot of wasted time from your Vim startup process. This was the main design goal for autoloading, as the Vim plugin ecosystem grew towards the first release of the feature in Vim 7.0.

Carefully examining what needs to load, and when—along with some careful experimentation—will make clearer to you what code can have its loading deferred until later. Autoloading is the second-closest thing you have to a “magic bullet” in quickening Vim. The closest thing, of course, is never to load the code at all, especially if you learn that the feature you wanted is already built in…

Don’t stop me now

Over both our articles on this topic, we’ve gone through a whirlwind tour of the most important parts of good :runtime and 'runtimepath' usage for your own personal ~/.vim directory—and yet, with every example, we’ve demonstrated merely a few simple possibilities of what can be done with it.

The “overlaying” runtime directory approach Vim takes to its configuration is one of the best things about the editor’s design. It strikes a balance between enabling detailed customization by Vim enthusiasts and their particular areas of editing interest, while still working just fine out of the box for everyone and everything else. Because sharing vimrc files has been a cultural tradition since the 90s, it’s so easy to overlook what’s possible outside the single-file box. The Emacs community has adapted readily to sharing .emacs.d directories, having had the same problems as we do now—we need to catch up!

The author hopes you have a new appreciation for the power that the much-overlooked 'runtimepath' design gives to you—all of it gained not by mastering an entire language like Emacs Lisp, but merely by putting a few small, relatively simple files in just the right places in your home directory. There’s some kind of aesthetic appeal in that—maybe even a weird kind of beauty that only a Vim enthusiast could love.

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