- Audience
- Programming in Emacs Lisp
- After reading this guide
- Trivial basics
- Evaluation
- Discoverability
- Basic concepts
- Editing
- Debugging
- Manipulating the buffer
- Navigating the buffer
- Querying the buffer
- Temporary buffers
- Defining interactive functions
- Defining your own major mode
- Defining a minor mode
- Overlays
- Standard practices
- Alternative sources
Programmers who are too busy to read through long tutorials and manuals, but who want to extend their editor. You don't need to learn everything from the ground up, just enough knowledge to be self-sufficient. You've been using Emacs for a while and now it's time you started making some handy extensions for yourself.
There are a bunch of existing guides, but they don't strike the right balance of useful and helpful. Some just list functions, others try to explain Emacs Lisp from the ground up as a language. You don't need to know everything right away. See the [Alternative sources](#Alternative sources) section for a list of these.
I'm not going to explain the Emacs Lisp language itself in any detail. Programming in Emacs Lisp (look at the Wikipedia page for the academic details) is similar to programming in Python, Scheme, Common Lisp, JavaScript, Ruby, and languages like that. Its syntax is funny but otherwise it's an imperative language with similar data structures.
One important difference compared to usual languages to be aware of is that it has dynamic scope by default. See Dynamic Binding in the manual for the details. Almost all Emacs Lisp code you come across today will be using this. Lexical Binding has recently been added to Emacs, it will take a while for this to permeate.
Like all Lisps, Emacs Lisp has macros which you can read about in the manual at your leisure.
The best, most comprehensive resource on Emacs Lisp is the manual. I will reference this manual throughout this guide. I will not repeat what's already there. You can reference this manually in a random access fashion when you need to solve a problem.
I reference the manual throughout the guide by HTML link, but you can
read it inside your Emacs itself. Run: C-h i m Elisp RET
These are the basics to syntax that you can lookup in any guide or just by looking at some Emacs Lisp code. I am assuming you're a programmer who can pick things up like this just by looking at code. I include these because I use them later:
(* 2 3)
(concat "a" "b")
(defun func (arg1 arg2)
"Always document your functions."
<function body>)
(defvar var-name <the value>
"Always document your variables.")
(let ((x 1)
(y 2))
...)
In Lisp the normal LET
doesn't let you refer to previous variables,
so you need to use LET*
for that. This is likely to trip people up,
so I include it here.
(let* ((x 1)
(y x))
...)
To do many things at once in one expression, use PROGN
:
(progn do-this
do-that)
See manual for details.
The way to set variables is not obvious:
(setq var-name value)
Equality and comparison operators:
(eq major-mode 'a)
(= 0 1)
(> 0 1)
(string= "a" "b")
(string> "a" "b")
Emacs Lisp has a bunch of equality operators. See the manual for gory details.
Data structures available: lists, vectors, rings, hashtables. Look them up in the manual.
- Use
M-:
to evaluate any Emacs Lisp expression and print the result. I personally use this constantly. - Use
C-x C-e
to evaluate the previous s-expression in the buffer. I personally never use this. See next binding. - Use
C-M-x
to evaluate the current top-level s-expression. I use this to re-applydefvar
anddefun
declarations. - There is a REPL available by
M-x ielm
. I tend to useM-:
rather than the REPL but you might like it. - Use
M-x eval-buffer
to evaluate the whole buffer of Emacs Lisp code.
A very important thing as an Emacs Lisp programmer is being able to get the information you want in a few keystrokes. Here's a list of ways to find what you need when you're writing Elisp code.
Find the function called by a keybinding: C-h k
This will show something like:
C-p runs the command previous-line, which is an interactive compiled
Lisp function in `simple.el'.
It is bound to C-p.
(previous-line &optional ARG TRY-VSCROLL)
You can click the link simple.el
to go directly to the definition of
that function. Very handy indeed.
Functions and variables are distinguished in Emacs Lisp, so there are two commands to do lookups:
- Run
C-h f
to show documentation for a function. This also works for macros. - Run
C-h v
to show documentation for a variable.
You'll see something like:
mapcar is a built-in function in `C source code'.
(mapcar FUNCTION SEQUENCE)
Apply FUNCTION to each element of SEQUENCE, and make a list of the results.
The result is a list just as long as SEQUENCE.
SEQUENCE may be a list, a vector, a bool-vector, or a string.
Run C-h b
to show a massive list of keybindings and the command they
run. You'll see something like, e.g. in markdown-mode
:
C-c C-x d markdown-move-down
C-c C-x l markdown-promote
C-c C-x m markdown-insert-list-item
Use the commands called apropos
.
M-x apropos
M-x apropos-command
M-x apropos-library
M-x apropos-documentation
Install this package: elisp-slime-nav
Now you can use M-.
to jump to the identifer at point and M-,
to
jump back.
The range of M-x describe-
functions are useful:
M-x describe-mode
(akaC-h m
)M-x describe-face
Other ones have been mentioned above as keybindings.
All Emacs Lisp code when run has a current buffer. Operations that
claim to work on "the buffer" work on this current buffer. Some handy
functions, which you can run C-h f
on to get more info:
(current-buffer)
- get the current buffer.(with-current-buffer buffer-or-name ...)
- temporarily use the given buffer.(set-buffer buffer-or-name)
- set the current buffer without switching to it.(switch-to-buffer name)
- switch to the buffer visually.
See Buffers in the manual for detailed info.
Buffers have local variables, for example:
- major-mode
You can use this variable to see what mode you're in, if you need it.
If you want to set your own buffer-local variable, use this:
(defvar your-variable-name nil "Your documentation here.")
Then later on in your code that will run in a given buffer, use:
(set (make-local-variable 'your-variable-name) <the-value>)
This is very handy in many scenarios when writing functionality. Note that buffer local variables are reset when you revert the buffer or change modes.
See manual for details.
A handy way to set a buffer local variable for every file that's
within a directory structure is to use
a .dir-locals.el
file.
((nil . ((indent-tabs-mode . t)
(fill-column . 80)))
(c-mode . ((c-file-style . "BSD")
(subdirs . nil)))
("src/imported"
. ((nil . ((change-log-default-name
. "ChangeLog.local"))))))
All Emacs Lisp code has a current point in the current buffer. It's a number. It refers to where the cursor is. See the manual entry for point, but here's the basics:
(point)
- current point(point-max)
- maximum point of the buffer(point-min)
- minimum point of the buffer (why is this not just0
? Because of narrowing).
Sometimes the region can be active, and you can use it in your Emacs Lisp code to manipulate text specially. See the manual for details. Rundown:
(region-beginning)
- beginning of the region (a point)(region-end)
- end of the region (a point)(use-region-p)
- whether to try to use region-beginning/region-end for manipulation. Handy for use in commands.(region-active-p)
- also handy to know whether the region is active.
Here's an command that uses some region functions:
(defun print-upper-region ()
"Demo to print the uppercased version of the active region."
(interactive)
(when (region-active-p)
(message "%S" (let ((string (buffer-substring (region-beginning)
(region-end))))
(with-temp-buffer
(insert string)
(upcase-region (point-min)
(point-max))
(buffer-substring-no-properties (point-min)
(point-max)))))))
To run it, C-M-x
it, select some text and run M-x print-upper-region
.
When you manipulate text in Elisp, it can have properties applied to it, and those properties can be queried. Full details are here but see the "Manipulating the buffer" section in this guide for examples.
Run M-: (setq debug-on-error t) RET
and any errors will open up the
debugger.
I'll write more about using the debugger stepper and breakpoints later.
Install and enable paredit. Nobody sane writes Lisp without paredit (or its shiny cousin, smartparens). You will never have unbalanced parentheses, brackets, braces, or strings. Learn to accept this and you will enjoy this mode.
As discussed in the discoverability section, use C-h f paredit-mode RET
to see the documentation for this mode.
Learn the following helpful keybindings:
C-M-u
- Go up a node.)
- Go to the end of the node or the end of the parent node when repeated.C-M-f
- Go to the end of the node.C-M-b
- Go to the start of the node.
C-k
- Kill everything from here to the end of the line, including
any following lines that are included in the scope of the nodes
being killed. It will also kill inside strings but stop at the end
of the string.
M-r
- Replace the parent node by the current node.
(|foo) -> foo
(foo |bar mu) -> bar
(foo (bar |mu zot) bob) -> (foo mu bob)
C-M-(
to wrap the following node in parens.- Alternatively,
C-M-SPC
to select the whole node, or just use your normal region selection and run(
or[
or{
to wrap that selection.
M-s
to split the current node. This works on parenthesized expressions or strings.M-J
to join two nodes. Works same as above in reverse.
These are the most common:
(insert "foo" "bar")
- to insert text at point.(delete-region start end)
- to delete the region of text.(insert-buffer-substring-no-properties buffer start end)
- insert text from another buffer.(insert-file-contents <filename>)
- insert from a file.
Any other command that inserts things can be called from Emacs Lisp, too.
To add properties to text in the buffer, use:
(put-text-property start end 'my-property-name <value>)
To completely reset the properties of text to just this, use:
(set-text-properties start end 'my-property-name <value>)
To retrieve properties back from the text, use:
(get-text-property <point> 'my-property-name)
To propertize a string before it's inserted into a buffer, use:
(propertize "hello" 'my-property-name <value> 'another-prop <value2>)
Here are the common ones:
(goto-char <point>)
- go to the point.(forward-char n)
- go forward n chars. Accepts a negative argument.(end-of-line)
- self-explanatory.(beginning-of-line)
- self-explanatory.(skip-chars-forward "chars")
- skip given chars.(skip-chars-backward "chars")
- skip given chars back.(search-forward "foo")
- search for foo, move cursor there.(search-backward "foo")
- search backward.(search-forward-regexp "blah")
- same, but with regexes.(search-backward-regexp "blah")
- same, but with regexes.
If there's a kind of navigation you want to do that you don't know the function name for, think of how you would do it with your keyboard and then use C-h k
on the commands to find out the functions being run.
Often you want to jump around the buffer to either query or manipulate something, and then go back to where you were originally. To do this, use:
(save-excursion ...)
For example:
(save-excursion (beginning-of-line) (looking-at "X"))
Will return whether the current line starts with X
.
Similarly there is save-window-excursion
.
(buffer-substring start end)
- get the string at point, including text properties.(buffer-substring-no-properties start end)
- get the string at point, excluding text properties.(buffer-string)
- return the string of the whole buffer.(looking-at "[a-zA-Z]+")
- does text following point match the regex?(looking-back "[a-zA-Z]+")
- does text preceding point match the regex?
It's often useful to do some work in a temporary buffer so that you can use your normal Elisp code to generate a string and some properties, for example:
(with-temp-buffer
(insert "Hello!"))
To be able to run a function of your own from a keybinding, it needs
to be interactive. You need to add (interactive)
to your defun
:
(defun foo ()
"Some function."
(interactive)
(do-some-stuff))
There's a bunch of variations for INTERACTIVE
,
see the manual.
Now your function foo
is interactive, you can use it in a
keybinding:
(define-key emacs-lisp-mode (kbd "C-c C-f") 'foo)
You can generally use define-derived-mode
. See
the manual on this.
Example:
(define-derived-mode hypertext-mode
text-mode "Hypertext"
"Major mode for hypertext.
\\{hypertext-mode-map}"
(setq case-fold-search nil))
(define-key hypertext-mode-map
[down-mouse-3] 'do-hyper-link)
Minor modes act as enhancements to existing modes. See
the manual
about define-minor-mode
.
A dummy example:
(defvar elisp-guide-mode-map (make-sparse-keymap))
(define-minor-mode elisp-guide-mode "A simple minor mode example."
:lighter " ELGuide"
:keymap elisp-guide-mode-map
(if (bound-and-true-p elisp-guide-mode)
(message "Elisp guide activated!")
(message "Bye!")))
(define-key elisp-guide-mode-map (kbd "C-c C-a") 'elisp-guide-go)
(defun elisp-guide-go ()
(interactive)
(message "Go!"))
Run M-x elisp-guide-mode
to activate it and run it again to disable it.
Real examples of minor modes:
Markers are handy objects that store a point, and changes to the buffer make the marker position move along. See the manual, which has a good section explaining it. Their use-case is probably more intermediate than for a tutorial like this, so I include them only so that you're aware of them.
Here's an example:
(defun my-indent-region (beg end)
(interactive "r")
(let ((marker (make-marker)))
(set-marker marker (region-end))
(goto-char (region-beginning))
(while (< (point) marker)
(funcall indent-line-function)
(forward-line 1))))
You need to store the end of the region before you start changing the buffer, because the integer position will increase as you start indenting lines. So you store it in a marker and that marker's value updates as the buffer's contents changes.
See the manual on overlays, these are a handy tool for a special kind of text that behaves as if separate and above the buffer. This is more advanced, by the time you want to use overlays you'll be happy reading the manual entry about it.
Emacs Lisp doesn't support modules. We go by convention. If your
module name is foo
, then name all your top-level bindings by
prefixing it with foo-
. Example:
(defun foo-go ()
"Go!"
...)
(provide 'foo)
To make this easier on your fingers, you can use something like:
(defun emacs-lisp-expand-clever ()
"Cleverly expand symbols with normal dabbrev-expand, but also
if the symbol is -foo, then expand to module-name-foo."
(interactive)
(if (save-excursion
(backward-sexp)
(when (looking-at "#?'") (search-forward "'"))
(looking-at "-"))
(if (eq last-command this-command)
(call-interactively 'dabbrev-expand)
(let ((module-name (emacs-lisp-module-name)))
(progn
(save-excursion
(backward-sexp)
(when (looking-at "#?'") (search-forward "'"))
(unless (string= (buffer-substring-no-properties
(point)
(min (point-max) (+ (point) (length module-name))))
module-name)
(insert module-name)))
(call-interactively 'dabbrev-expand))))
(call-interactively 'dabbrev-expand)))
(defun emacs-lisp-module-name ()
"Search the buffer for `provide' declaration."
(save-excursion
(goto-char (point-min))
(when (search-forward-regexp "^(provide '" nil t 1)
(symbol-name (symbol-at-point)))))
And then:
(define-key emacs-lisp-mode-map (kbd "M-/") 'emacs-lisp-expand-clever)
Now you can write (defun -blah M-/
and get (defun foo-blah
. You
need a (provide 'foo)
line at the bottom of your file for this to work.
- https://github.com/gar3thjon3s/elisp-cheatsheet/blob/master/cheatsheet.md
- http://wikemacs.org/wiki/Emacs_Lisp_Cheat_Sheet
- http://steve-yegge.blogspot.it/2008/01/emergency-elisp.html
- http://lispp.wordpress.com/2009/11/25/emacs-lisp-cheatsheet/
- http://stackoverflow.com/questions/5238245/elisp-programming-whats-the-best-setup
- http://nic.ferrier.me.uk/blog/2012_07/tips-and-tricks-for-emacslisp
- https://www.gnu.org/software/emacs/manual/html_node/eintr/index.html
- http://www.emacswiki.org/emacs/EmacsLispIntro
- http://www.emacswiki.org/emacs/LearnEmacsLisp
- http://bzg.fr/learn-emacs-lisp-in-15-minutes.html
- http://www.delorie.com/gnu/docs/emacs-lisp-intro/emacs-lisp-intro_toc.html
- http://cjohansen.no/an-introduction-to-elisp