“The hardest bug I ever debugged in my life was a concurrency bug; the second hardest wasn’t even close (and thankfully, I didn’t try to solve it at the same time).” — John Wiegley, Emacs maintainer, on Emacs Lisp’s future, 09 October 2016

Charles-H. Schulz is not a developeralthough he is technically proficient. He describes himself as specializing in literature, history and philosophy. He's also an Emacs user. I find that interesting because I'm always fascinated with how people who aren't writing code use Emacs and how they took the unlikely step of getting started.

Schulz has a post in which he describes how he uses Emacs. It's easy to see him as a power user because he performs many" class="wp-smiley" style="height: 1em; max-height: 1em;" />or even most" class="wp-smiley" style="height: 1em; max-height: 1em;" />of his daily tasks in Emacs. That includes mu4e for email, blogging, IRC, file management, terminal, and, of course, Org mode. Like most of us he prefers to browse with a dedicated browser rather than, say, eww, and he doesn't like the available Emacs packages for RSS or Twitter. Still, he does an impressive number of his daily chores from within Emacs.

If this sort of thing interests you too, head on over to and take a look at his write-up.

Four Saturdays ago, on September 17, Emacs 25 was finally released. Almost two years before that, I wrote a post predicting a few Big things to expect from Emacs 25. Throughout the months since then, I’ve also been reporting interesting new features as they arrived on the dev builds. Today, we compile a list of all of those news posts, and review which predictions I actually got right.

Comment on this.

• Org Mode:
  • Transpose a table in org-mode
  • The Fifteen Questions That You Must Answer In Your Org Mode Literate Programming Configuration
  • org-export-babel-evaluate
  • Secretaria.el – attempt of an assistant for you in org-mode
  • Adjust the size of pictures to be shown inside org-mode
  • Efficiently untangling Elisp from .org files (Reddit)
  • Is there a way to convert simple HTML files to org-mode files?
  • :clojureD Bonn 2016: Emacs org-mode für Einsteiger (54:41)
• Magit:
  • Magit – My Simple Workflow
  • How to use only Magit when using another editor?
  • How to simplifying magit workflow?
  • magit: manage a repo without having a file opened
• Coding:
  • TblUi a Tabulated List mode extension – use it to build your next tabulated list mode
  • RYO – Roll your own modal mode! (Reddit)
  • State of emacs potential for java development as of late 2016
  • goal: navigating large Bash projects. implementation: questions
  • emacs-devel discussion: Emacs Lisp’s future
• Other:
  • Center Buffer Text in Emacs
  • Open files with the system default application
  • enable upcase/downcase-region but prevent accident
  • Using Emacs – 16 – Undo Tree (Reddit)
  • best workflow for window layout managament
  • Email notifications in Gnus
  • Spacemacs 0.200 is out (Reddit)
  • New Emacs package pamparam: flashcards with spaced repetition (25:07)
  • Side-window-related changes
• New packages:
  • chinese-number: Convert numbers between Arabic and Chinese formats
  • mosey: Mosey around your buffers
  • octo-mode: Major mode for Octo assembly language
  • org-clock-today: Show the total clocked time of the current day in the mode line
  • snapshot-timemachine-rsnapshot: rsnapshot backend for snapshot-timemachine
  • tblui: Define tabulated list UI easily
  • ts-comint: Run a Typescript interpreter in an inferior process window.
  • webpaste: Paste to pastebin-like services

Links from reddit.com/r/emacs, /r/orgmode, /r/spacemacs, Hacker News, planet.emacsen.org, Youtube, the changes to the Emacs NEWS file, and emacs-devel.

Past Emacs News round-ups

The post 2016-10-10 Emacs News appeared first on sacha chua :: living an awesome life.

I recently needed to transpose a table in org-mode and spent a few minutes trying to come up with a keyboard macro to do it before it occurred to me that there might be a command to do this already. And of course there was: M-x org-table-transpose-table-at-point. Here it is in action:

It’s great when there’s a command that does exactly what you want!

The other day I wrote about undo-tree and wished for a video on how to use it. Mike Zamansky came to the rescue with a very nice video expanation of undo-tree. Really, this package is extraordinarily useful and it's nice to have an easy way to get started.

For me, at least, seeing the video helped illuminate some of the dark corners. Others, I know, would rather read an explanation and for them the nice commentary that I mentioned in the original blog post is the place to go. If you like to see things actually happening, you should definitely take a look at Zamansky's video. It's the 16^th in a series of useful Emacs tutorials that he's done. They're all worth watching so take a look when you get a chance.

One interesting thing that Zamansky mentioned that I hadn't considered is that you really don't need redoalthough that is much improved with undo-treebecause you can simply use undo-tree-visualize (bound to Ctrl+x u) to move down the undo tree to redo as much as you like. That's a subtle but very useful point.

My advice is to watch Zamansky's video and then read the commentary (or vice versa if that makes more sense for you) and you should be able to start using undo-tree efficiently. It's definitely a package you want.

Explain how to build GNU Emacs 25.1 on Ubuntu Linux

The post How to build GNU Emacs 25.1 on (X)Ubuntu 16.04 appeared first on The Lone C++ Coder's Blog.

Via here, in this example it handles the situation when you want to run Magit but haven’t got a project file open:

(let ((current-prefix-arg '(4)))
  (call-interactively #'magit-status))

Does this image look familiar? I always found Emacs’ tendency to stuck buffer text on the far left of a window quite annoying, particularly on large screens where it doesn’t just look ugly but also forces you to keep your head twisted to the left in order to follow the buffer text.

Luckily Visual Fill Column Mode comes to the rescue. The purpose of this mode is actually to make buffer text wrap on the fill-column even in buffers that don’t use hard wrapping and typically have Visual Line Mode active—hence the name of this mode. By default it inherits Emacs’ left-wing tendency—which I’d absolutely agree, politically, but it just doesn’t make for a nice UI.

However there’s a tiny flag that makes Visual Fill Column Mode center text. My use package configuration looks as follows¹:

(use-package visual-fill-column
  :ensure t
  :defer t
  :bind (("C-c t v" . visual-fill-column-mode))
  :init
  (dolist (hook '(visual-line-mode-hook
                  prog-mode-hook
                  text-mode-hook))
    (add-hook hook #'visual-fill-column-mode))
  :config (setq-default visual-fill-column-center-text t
                        visual-fill-column-fringes-outside-margins nil))

The key is visual-fill-column-center-text which does, well, exactly what the name says and beautifully centers buffer text:

visual-fill-column-fringes-outside-margins in turn moves the fringes to the window borders far from the text. By default the option is on, keeping helpful icons from Flycheck or diff-hl far away from the actual text, but I’d like information close with the actual text.

Note that I use setq-default to change the options as both are buffer-local variables.

Of course, as with many things UI-related in Emacs, the implementation is a dirty hack: It extends the window margins to cover the empty area of the buffer. As hacks are hacks there are a couple of issues; for instance text scale adjustments go unnoticed at first: Visual Fill Column has no chance to intercept text-scale-adjust or similar functions to recompute the margins so the alignment will be somewhat off after changing the text scale until the next redisplay.

But generally Visual Fill Column Mode works perfect, and is now the default for all buffers in my Emacs, even if they don’t use visual-line-mode.

By the way, Visual Fill is a by-product of Writeroom Mode which is a very nice mode for distracting-free writing where the whole UI of the buffer is reduced, even more than Emacs’ normal UI. Take a look at it, too, if you like the idea.

Update (Oct 09, 2016): Mention visual-fill-column-fringes-outside-margins.

I’ve mentioned crux before; it’s a package providing a set of general-purpose useful commands. One that I use all the time is crux-open-with, which opens the file currently being visited (or the file at the point in a dired buffer) using the system default application for that filetype. It works on Mac or Linux, by using the open or xdg-open commands respectively.

I bind the command to C-c o, using the following code (which also binds the previously mentioned crux-move-beginning-of-line)

(use-package crux
  :bind (("C-c o" . crux-open-with)
         ("C-a" . crux-move-beginning-of-line)))

My configuration results in an environment where you can only evaluate code within the document and never during export or tangling. That way it is easier to understand what happens when.

Code is only ever evaluated when you execute the document. The results of execution are stored within the document. That is my workflow.

Knitr in comparison does the opposite only evaluating code during export.

Here is the easiest way to make sense of what happens when resulting in what:

Key:

• Columns
  • Activity: The actions that is being performed on the document
  • S : Source document modified?
  • T : Destination tangled-document modified?
  • W : Destination weaved-document modified?
  • C : Source-Block Evaluation occurred?
  • O : Org-Macro Expansion occurred?

Once you answer all of those questions you aren’t likely to have many surprises by your Org-Mode Literate Programming system.

I made a schoolboy error last week: I narrowed down a problem I was having with a program to one line and one setting … but then I didn’t read the documentation. It was Org mode in Emacs, and the variable was org-export-babel-evaluate. I set it to nil, and what happened wasn’t what I thought should happen, so I thought it was a bug, when actually it’s all set out in the docs. Lesson re-learned: RTFM.

Here’s what happened. At work I did a long report analyzing some aspects of the library’s presence in the university’s course management system. We made a box in Moodle that generates customized recommendations to students based on the course code: students see links to relevant research guides (for example poli sci students see a link to the poli sci research guide), to the course’s specific guide and/or reserves if they exist, and to the profile of the librarian who handles that subject. Turns out the links in the box don’t get many clickthroughs, but that’s something I’ll write up some other time.

A cat.

The thing is, doing the full analysis means looking at millions of lines of data from log files, then processing things in R and Ruby, generating charts, tables of numbers, the whole schmear. The way I have it set up, the Org file, which is full of source code blocks, can be fully reproducible research: when I export to PDF, every data file is read in and analyzed fresh, every table and chart are regenerated. That’s wonderful, and it’s one of the reasons I love Org—but it’s intensive, and it takes about five minutes to run on my personal machine, and usually crashes my slower work machine. (I asked for a new one.) And when I’m rewriting and editing and want to see how the changes look, I don’t need to regenerate all the data, I just want to turn what’s there into a PDF as is.

Because I didn’t want any of the code blocks evaluated, I set this in a file variable (it’s the first line in the Org file):

# -*- org-export-babel-evaluate: nil -*-

But when I exported the file to PDF, all of a sudden not only were the results of the code blocks in the PDF (as desired) but also the code that generated them. Instead of showing the results of a bit of Ruby, the Ruby was there too. Instead of just showing a chart, the R that made it was there too. Not what I wanted!

Another cat.

I spent about an hour narrowing this down and reported it as a possible bug to the Org mailing list. Very quickly Charles Berry replied and gently corrected me, pointing me to the documentation (which I now notice contains a typo, which I’ll submit a real bug report for):

Switch controlling code evaluation during export.
When set to nil no code will be evaluated as part of the export
process and no header argumentss will be obeyed.  When set to
‘inline-only’, only inline code blocks will be executed.  Users
who wish to avoid evaluating code on export should use the header
argument ‘:eval never-export’.

It’s the “no header arguments will be obeyed” that was causing my trouble. I needed that “:eval never-export” thing, which isn’t managed like the org-export-babel-evaluate variable, but is a header argument, which I’d never used before (and had to search GitHub to find examples of). I put this near the start of the file and hit C-c C-c on the line to make Emacs know about it:

#+PROPERTY: header-args :eval never-export

Now when I export the file to PDF (C-c C-e l o) it just blasts the document as is into LaTeX and turns it into a PDF, no calculating done. For minor tweaks and copy editing, that’s just what I need. When I need to rerun some data analysis, I can remove the line to rerun everything fully and completely.

This is all a bit arcane, so I document this in the hopes it will save someone, perhaps just future me, a moment of trouble in some month or year to come.

• Org Mode:
  • Org-mode narrow to subtree on file open
  • Calling blocks from org-babel-library-of-babel on file load?
  • Send scribbles and pictures to an Emacs buffer from your Android phone (HN)
• Coding:
  • Electric Pair Mode In Emacs
  • Help me switch from SublimeText to Emacs for PHP development?
  • Clojure in Emacs from absolute zero (26:33)
  • My GNU Emacs configuration for programming (36:07)
• Emacs Lisp:
  • Made some elisp videos
  • Searching A Million Lines Of Lisp (Reddit)
  • parinfer-mode (Reddit)
  • New option: debugger-stack-frame-as-list
  • Continued discussion of core and ELPA organization
  • reevaluating ‘Local Variables’ after change
• Other:
  • best feature in Emacs 25.1
  • Searching for Words with eww – also, a tweak
  • Emacs now suggests shorter ways of invocating a command
  • ScreenShots of emacs slack client (Reddit)
  • Amarok.el update to support dbus (Reddit)
  • Highlighting text
  • Elfeed for Android (Reddit)
  • Doing better than swapping Ctrl and Capslock
  • RSS feeds using elfeed (0:40)
  • Emacs Basic functionality (3:29)
  • New option: confirm-kill-processes
  • Discussion about where to put this new Japanese translation of the GNU Emacs manual
• New packages:
  • 0xc: Base conversion made easy
  • ansible-vault: Minor mode for editing ansible vault files
  • auto-org-md: export a markdown file automatically when you save an org-file
  • color-theme-x: convert color themes to X11 resource settings
  • cpanfile-mode: Major mode for cpanfiles
  • direnv: Load environment variables from direnv
  • dkl: Display keyboard layout.
  • elisp-refs: find callers of elisp functions or macros
  • gobgen: Generate GObject descendants using a detailed form
  • ipcalc: IP subnet calculator
  • melancholy-theme: A dark theme for dark minds
  • mtg-deck-mode: Major mode to edit MTG decks
  • open-in-msvs: Open current file/line/column in Microsoft Visual Studio
  • podcaster: Podcast client
  • ripgrep: Front-end for ripgrep, a command line search tool
  • riscv-mode: Major-mode for RISC V assembly

Links from reddit.com/r/emacs, /r/orgmode, Hacker News, planet.emacsen.org, Youtube, the changes to the Emacs NEWS file, and emacs-devel.

Past Emacs News round-ups

The post 2016-10-03 Emacs News appeared first on sacha chua :: living an awesome life.

Time for another Emacs adventure!

In Emacs today, there’s no way to find all the callers of a function or macro. Most Emacsers just grab their favourite text search tool. Sadly, dumb text search knows nothing of syntax.

We can do better. It just wouldn’t be Emacs without a little fanatical tool building. Let’s make this happen.

Parsing

Everyone know how to parse lisp, right? It’s just read.

It turns out that a homoiconic language is hard to parse when you want to know where you found the code in the first place. In a language with a separate AST, the AST type includes file positions. In lisp, you just have… a list. No frills.

I briefly explored writing my own parser before coming to my senses. Did you know the following is legal elisp?

;; Variables can start with numbers:
(let ((0x0 1))
  ;; And a backquote does not have to immediately precede the
  ;; expression it's quoting:
  `
  ;; foo
  (+ ,0x0))

Cripes.

Anyway, I totally ripped off was inspired by similar functionality in el-search. read moves point to the end of the expression read, and you can use scan-sexps to find the beginning. Using this technique recursively, you can find the position of every form in a file.

Analysing

OK, we’ve parsed our code, preserving positions. Which forms actually look like function calls?

This requires a little thought. Here are some tricky examples:

;; Not references to `foo' as a function.
(defun some-func (foo))
(lambda (foo))
(let (foo))
(let ((foo)))

;; Calls to `foo'.
(foo)
(lambda (x) (foo))
(let (x) (foo))
(let ((x (foo))) (foo))
(funcall 'foo)
;; Not necessarily a call, but definitely a reference to 
;; the function `foo'.
(a-func #'foo)

We can’t simply walk the list: (foo) may or may not be a function call, depending on context. To model context, we build a ‘path’ that describes the contextual position of the current form.

A path is just a list that shows the first element of all the enclosing forms, plus our position within it. For example, given the code (let (x) (bar) (setq x (foo))), we build a path ((setq . 2) (let . 3)) when looking at the (foo).

This gives us enough context to recognise function calls in normal code. “Aha!”, says the experienced lisper. “What about macros?”

Well, elisp-refs understands a few common macros. Most macros just evaluate most of their arguments. This means we can just walk the form and spot most function calls.

This isn’t perfect, but it works very well in practice. We also provide an elisp-refs-symbol command that finds all references to a symbol, regardless of its position in forms.

Performance

It turns out that Emacs has a ton of elisp. My current instance has loaded three quarters of a million lines of code. Emacs actually lazily loads files, so that’s only the functionality that I use!

So, uh, a little optimisation was needed. I wrote a benchmark script and learnt how to make elisp fast.

Firstly, avoid doing work. elisp-refs needs to calculate form positions, so users can jump to the file at the correct location. However, if a form doesn’t contain any matches, we don’t need to do this expensive calculation at all.

Secondly, find shortcuts. Emacs has a little-known variable called read-with-symbol-positions. This variable reports all the symbols read when parsing a form. If we’re looking for function calls to some-func, and there’s no reference to the symbol some-func, we can skip that form entirely.

Thirdly, use C functions. CS algorithms says that building a hash map gives you fast lookup. In elisp-refs, we use assoc with small alists, because C functions are fast and most lists weren’t big enough to benefit from the O(1) lookup.

Fourthly, write impure functions. Elisp provides various ways to preserve the state of the current buffer, particularly save-excursion and with-current-buffer. This bookkeeping is expensive, so elisp-refs just creates its own temporary buffers and dirties them.

When all else fails, cheat. elisp-refs reports its progress, which doesn’t make it faster, but it certainly feels like it.

Display

We have something that works, and we can search in all the code in in the current Emacs instance in less than 10 seconds. How do we display results?

first prototype, showing the matching forms in isolation

Initially, I just displayed each form in the results buffer. It turns out that the context is useful, so added the rest of the matching lines too. To avoid confusion, I underlined the section of the code that matched the search.

second prototype, adding context and custom faces

The second prototype also had some custom faces for styling. This was an improvement, but it forces all Emacs theme authors to add support for the faces defined in our package.

It still didn’t work as well as I’d hoped. When I get stuck with UI, I ask ‘what would magit do?’. I decided that magit would take advantage of existing Emacs faces.

final UI, using normal syntax highlighting

The final version uses standard elisp highlighting, but highlights the surrounding context as comments. This means it will match your favourite colour scheme, and new users should find the UI familiar.

I added a few other flourishes too. You can see that results in the second prototype were often very indented. The final version unindents each result, to make the matches easier to read quickly.

Wrap-Up

elisp-refs is available on GitHub, available on MELPA, and it’s ready for your use! Go forth, and search your elisp!

ohyecloudy posted a photo:

Click for multiple-cursors

(global-unset-key (kbd "M-<down-mouse-1>"))
(global-set-key (kbd "M-<mouse-1>") 'mc/add-cursor-on-click)

Minimap

dotspacemacs-additional-packages '(helm-dash key-chord pig-mode mmm-mode minimap origami ansible)

Folding

(eval-after-load 'origami
    '(progn
       (defun rb-show-only (buffer point)
         (interactive (list (current-buffer) (point)))
         (progn (origami-show-only-node buffer point)
                (minimap-new-minimap)))

       (defun rb-toggle-rec (buffer point)
         (interactive (list (current-buffer) (point)))
         (progn (origami-recursively-toggle-node buffer point)
                (minimap-new-minimap)))

       (define-key evil-normal-state-map "æ" 'rb-show-only)
       (define-key evil-normal-state-map "Z" 'origami-toggle-node)
       (define-key evil-visual-state-map "Z" 'origami-toggle-node)
       (define-key evil-insert-state-map "C-Z" 'origami-toggle-node)
       (define-key evil-normal-state-map "z" 'rb-toggle-rec)
       (define-key evil-visual-state-map "z" 'rb-toggle-rec)
       (define-key evil-insert-state-map "C-z" 'rb-toggle-rec)
   )))

Execution overlays in Ensime (Scala)

A Kanban board is a way to visualise your work and help you get more work done. You organise your work into tasks that need completeing and use the board to show the state of each card. Kanban encourages you to get work finished before starting new work.

The amazing Emacs Org-mode can be used to create a very fast and easy to use Kanban board that is with you where ever you are.

Update: Using Org-mode doesnt give me everything I want from a Kanban board, but it was an interesting exersice. For now, I am just sticking to my list view of a Kanban board.

Org-mode is built into Emacs / Spacemacs so there is no need to install any packages or layers for any of the following.

Designing a kanban board

The columns on your kanban board represent the state of work and represent your typical workflow. You can represent the states as the most generic todo, doing, done workflow, or anything more specific that adds value to how you manage work.

I have been using kanban for a while, so I am using a five stage workflow: planning, in progress, blocked, review, done

• planning - work I’d like to do that needs organising so I can do it.
• in progress - what I am currently working on. I try and keep this to a minimum so I get things done
• blocked - things I’ve started working on but currently arent able to complete
• review - work I have completed. Check if there are any follow on tasks or lessons learnt
• done - things I have completed. Gives feeling of satisfaction

Creating Org-mode stages

Its easy to create your own Org-mode stages, to represent the state of work in your Kanban board. Please see my earlier article on Configuring Emacs Org-Mode to Managing Your Tasks

Create an Org-mode file

Create a new file by opening a new buffer M-x find-files and type in the new file name, ending in .org. Any files with a .org filename extension will automatically set the Emacs major mode to Org-mode.

I use a file called kanban.org for my kanban board.

Create a kanban board

Lets assume you created a file called kanban.org. Edit this file and create a table for the kanban board. You can start creating ths manually by typing | for the table layout or use M-x org-table-create and enter the number of columns and rows for the table. For example, to create for a table with 5 columns and 3 rows, you would speciify 5x3

Add the names of the kanban board in the first row of the table. If you did not use M-x org-table-create then add a header row with M-x org-table-insert-hline.

In my kanban board, this gives

Adding tasks to the kanban board

Each item on the board represents a task and we use the Org-mode interal link to jump from the board to the details of the task. To create a link of the same name as the task, simply type the name inside double square brakets [[]].

Moving the tasks across the board

Its easy enough to move the columns around with Alt - <arrow-keys> in org-mode, but there is not a single keybinding to move a cell.

To move the individual tasks between the columns use selective cut and paste:

• Move the cursor to the cell you want to move and use C-c C-x C-w
• Use TAB to move to the new cell
• Paste/Yank the value into the new cell using C-c C-x C-y

However, simply moving the task does not update the Org-mode stage. As each task is a link, I can click on that link and I am taken to the task and can easily update the task stage to match the board.

It would be great if moving the tasks on the board updated the associated task stage and vice versa.

El Kanban - updating the board from task stage changes

I found the El Kanban package that will updated the kanban board based on the task org-mode stages. This uses the Org-mode table format directive that you run each time you want to update the board.

I installed this package and it did pull in my custom org-mode stages for the headers. Unfortunately it did not pull in the tasks to the board, so I will either need to fix the package or find another solution.

Any suggestions are more than welcome.

References

• Configuring Emacs Org-mode to manage your tasks
• Emacs Org-mode Kanban pomodoro… oh my… - Posted on August 8, 2011 by Bryan Morris
• El Kanban - an org-mode table that updates based on task stages

Thank you.
@jr0cket

When I got started with Lua, everything about it seemed to be the opposite of what I would like in a language, especially coming from Racket, Clojure, OCaml, and Erlang. It's unabashedly imperative, has nils everywhere, and lacks a macro system or any kind of static analysis. But now after spending over a year with it, I've developed a fondness for it, and the reasons are not what I would have expected.

The most obvious strength of Lua is its relentless simplicity. The small number of concepts you have to keep in your head when writing Lua can really help you focus, and it picks just the right concepts to build on[1]. For instance, the module system is largely just constructed out of tables and closures. What more do you need? It brings to mind the simplicity of Scheme and its "perfection is achieved when there is nothing left to remove" philosophy, but I believe Scheme's insistence on lists as the fundamental data type actually does a great disservice—fitting sequential data into an associative data type is much more natural than going the other way around[2].

There are two advanced features which can be confusing: metatables and coroutines. But when used judiciously, these can allow you to overcome the limitations of normal tables and functions in ways that feel seamless, like the way itch.io uses coroutines to hide the fact that many of its functions use asynchronous I/O and avoids structuring everything around callback soup.

But what you most often hear touted as Lua's appeal is actually in its ease of embedding. Now obviously when people talk about this they are usually referring to how seamless it is to add the Lua runtime to a large C program and expose its functionality to code that can be written by the end user. And this is huge; empowering users to control your programs by doing their own coding pays major dividends, and here again Lua's simplicity means more users are likely to be able to take advantage of it. But even though I don't write large C programs, I found that the ability to embed Lua execution inside a Lua program is very valuable.

This advantage is not at all intuitive if you haven't seen it, but one distinguishing factor of Lua is that it allows sandboxed execution contexts to be constructed trivially:

local chunk = assert(loadstring(user_code))
setfenv(chunk, {api = require("my.api")})
return chunk()

In these three lines the code loaded from the user_code string will run with no access to any functions outside the api table you provide. (In practice you would also include a whitelist of pure functions for tables, strings, math, etc.) But that's all it takes to allow user code to run inside your own limited sandbox.

Now Lua lacks any notion of first-class interfaces. The idea of passing a table in which must conform to a certain specified shape of fields and functions is fully ad-hoc and must be communicated entirely through documentation. And unfortunately it's somewhat unusual for Lua programmers to specify which functions in a module are for public consumption vs which are internal implementation details. But first-class sandboxes as extension points actually address many of the same problems as interfaces! Instead of saying "you must provide an implementation of this interface that has these fields and these functions" you can say "Provide your own code here; you will have access to call only this limited subset of functions which we've designated as a public API. The implementation details aren't even visible to you."

Now this can break down badly when the sandbox doesn't expose enough functionality to get the job done. This is why it's important not to tack on "scriptability" as a checkbox you fulfill at the end, but to embrace internal reprogrammability from the very start. If you use the same methods to build the program in the first place as the end users use to customize it, you force yourself to be honest and to give the end users everything they need.

So from this perspective, we can agree that yes, Lua's imperative nature and sloppy semantics (especially around nils) put it at a disadvantage for large codebases vs languages that have the advantage of immutability and/or intelligent type systems. But the fact that it offers setfenv makes it uniquely suited for constructing larger codebases out of small codebases. This is the approach I take in my game Bussard, where I have four separate execution contexts, none of which have much more than 3,000 lines of code in them. Each small codebase is perfectly manageable on its own, and the interfaces between them are concise and clearly-defined despite Lua lacking first-class features for defining interfaces as we normally think of them.

[1] I have found that this simplicity also makes it a great choice for teaching programming, especially to younger kids who haven't reached the developmental stages where they can appreciate the more abstract, mathematical approach espoused by Racket.

[2] I know this method has a bad reputation because JavaScript and PHP do it very badly, but Lua shows it can be done well. There is a bit of awkwardness around ambiguity between array-like tables and key/value tables, but it is not nearly as awkward as using alists.

Recently, I've been looking at libigl. I didn't manage to fully figure out their CMake build system for tutorials: although each tutorial has a CMakeLists.txt, it's only possible to build them all at once.

So I decided to replace CMakeLists.txt with a good-old Makefile; how hard can it be? Concerning includes, not at all hard: the missing files are found with counsel-locate and added to the include path.

But I had some trouble matching a missing ld dependency to a library file. Fixed it with a bunch of googling and guesswork; I still wonder if there's a better way. But in the process, I've found this useful command:

readelf --syms libGL.so

which produces e.g.:

Symbol table '.dynsym' contains 2732 entries:
   Num:    Value          Size Type    Bind   Vis      Ndx Name
     0: 0000000000000000     0 NOTYPE  LOCAL  DEFAULT  UND
     1: 000000000004faf0     0 SECTION LOCAL  DEFAULT    8
     2: 00000000000e8f20     0 FUNC    GLOBAL DEFAULT   11 glGetIntegerui64i_vNV
     3: 00000000000e13e0     0 FUNC    GLOBAL DEFAULT   11 glGetMultiTexEnvfvEXT
     4: 00000000000d7440     0 FUNC    GLOBAL DEFAULT   11 glProgramUniform2uiv
     5: 00000000000cfdc0     0 FUNC    GLOBAL DEFAULT   11 glMultiTexCoord3sv

This is a pretty good representation of a binary file: in this example, instead of one megabyte of gibberish I see a bit more than 2732 lines describing the functions this file uses and provides.

Viewing the symbol list automatically

I liked the above representation so much that I want to see it by default. In Emacs, it's pretty easy to do with auto-mode-alist:

(add-to-list 'auto-mode-alist '("\\.\\(?:a\\|so\\)\\'" . elf-mode))

The above code instructs Emacs to call elf-mode function whenever the file name ends in *.a or *.so.

And here's the body of elf-mode:

(defvar-local elf-mode nil)

;;;###autoload
(defun elf-mode ()
  (interactive)
  (let ((inhibit-read-only t))
    (if elf-mode
        (progn
          (delete-region (point-min) (point-max))
          (insert-file-contents (buffer-file-name))
          (setq elf-mode nil))
      (setq elf-mode t)
      (delete-region (point-min) (point-max))
      (insert (shell-command-to-string
               (format "readelf --syms %s" (buffer-file-name)))))
    (set-buffer-modified-p nil)
    (read-only-mode 1)))

The idea is very simple: elf-mode is a toggle function that replaces the buffer contents with the shell command output. It carefully uses read-only-mode and set-buffer-modified-p so that the file will not be overwritten by accident with the symbol names.

Using autoload to avoid overhead

As you might imagine, looking at binaries isn't really a common task. Is it worth to be dragging this code around from now on, loading it on each start? The answer is yes, of course. Since the actual cost is negligible until the feature is used.

If you look above, elf-mode has an ;;;###autoload cookie before it. The cookie results in this line in my loaddefs.el:

(autoload 'elf-mode "modes/ora-elf" "" t nil)

My init.el always loads loaddefs.el, but never loads ora-elf.el where the function is defined. That file is only loaded when the function elf-mode is called for the first time. The above autoload statement simply instructs Emacs to load a particular file when elf-mode needs to be called.

When you use the package manager, the autoloads file is generated and loaded for you automatically:

$ tree elpa/ace-link-20160811.112/

elpa/ace-link-20160811.112/
├── ace-link-autoloads.el
├── ace-link.el
├── ace-link.elc
└── ace-link-pkg.el

0 directories, 4 files

Here, the package manager will always load ace-link-autoloads.el, which instructs Emacs to load ace-link.el when one of the ;;;###autoload functions is called and ace-link.el isn't yet loaded.

As an example of how useful delayed loading is: my 6000 line config starts in 1.8 seconds. About 40% of that time is spent on (package-initialize), which I assume is the package manager loading all those *-autoloads.el files that I have in my elpa/.

Outro

Let me know if there's interest to have elf-mode on MELPA. Also, if anyone knows how to set mode automatically based on the first few chars of the file (all binaries seem to start with ^?ELF), I'd like to know that as well. Happy hacking!

Emacs Lisp has a delightful help system. You can view the docstring for any function under the cursor, making it easy to learn functionality.

Rust goes a step further. All the standard library documentation is written with the source code. This means we can find docs programmatically!

When I learnt that racer recently added support for rustdoc, I couldn’t resist adding support to racer.el.

The new racer-describe command actually renders the markdown in rustdoc comments. Since we’re showing a separate buffer, we can render the docs and throw away the markdown syntax. We can even convert external hyperlinks to clickable links!

This is a really nice example of composing Emacs functionality. Since we can easily highlight code snippets (it’s an editor!), we actually apply syntax highlighting to inline code! Note how Vec and T are highlighted as types in the above screenshot.

Whilst we don’t use *Help* buffers, we extend the same keymaps, so all the relevant help shortcuts just work too.

We have hit a few teething issues in racer (namely #594 and #597) but it’s changed the way I explore Rust APIs. It’s particularly useful for learning functionality via examples, without worrying about implementation:

I hope it will also encourage users to write great docstrings for their own projects.

Love it? Hate it? Let me know what you think in the /r/rust discussion.

(It’s hot off the press, so there will be bugs. If you find one, please file it on GitHub.)

While this may be obvious, I was pretty dang pleased with myself when I managed to turn the Caps Lock key on my Windows 10 computer into an emacs friendly Hyper key. Here's what I did:

Step 1. Use AutoHotKey to trivially map the Caps Lock key to the Windows Menu key, or as AutoHotKey calls it, the AppsKey.

;; Add this to your standard AutoHotKey configuration
CapsLock::AppsKey

Step 2. Use this elisp code to capture the Menu key from within emacs and map it to the Hyper modifier:

;; http://ergoemacs.org/emacs/emacs_hyper_super_keys.html
(setq w32-pass-apps-to-system nil)
(setq w32-apps-modifier 'hyper) ; Menu/App key

Step 3. Enjoy! I can now map any key binding using the H- modifier. Here's some code I added to my PHP setup:

(defun bs-php-mode-hook ()
  (local-set-key '[backtab] 'indent-relative)
  (local-set-key (kbd "<H-left>") 'beginning-of-defun)
  (local-set-key (kbd "<H-right>") 'end-of-defun)
  (auto-complete-mode t)
  (require 'ac-php)
  (setq ac-sources  '(ac-source-php ))
  (yas-global-mode 1)
  (setq indent-tabs-mode nil)
  (setq php-template-compatibility nil)
  (setq c-basic-offset 2))

The result: when I open up a PHP file, I can jump between function definitions by holding down Caps Lock and left or right arrow.

I feel like I just won the keyboard shortcut lottery!