This package provides basic interaction with a Clojure subprocess (REPL).
It's based on ideas from the popular inferior-lisp
package.
inf-clojure
has two components - a nice REPL buffer (inf-clojure-mode
) and a REPL
interaction minor mode (inf-clojure-minor-mode
), which extends clojure-mode
with commands to evaluate forms directly in the REPL.
This documentation tracks the master
branch of inf-clojure
. Some of
the features and settings discussed here might not be available in
older releases (including the current stable release). Please, consult
the relevant git tag (e.g. 2.2.0) if you need documentation for a
specific inf-clojure
release.
inf-clojure
aims to expose the extensive self-documenting features of Clojure
REPLs via an Emacs package. inf-clojure
is extremely simple and does not require special tooling.
It supports the following REPLs:
inf-clojure
provides a set of essential features for interactive
Clojure/ClojureScript/ClojureCLR development:
- Enhanced REPL
- Interactive code evaluation
- Code completion
- Definition lookup
- Documentation lookup
- ElDoc
- Apropos
- Macroexpansion
- Reloading a namespace (via
require :reload
/require :reload-all
) - Connecting to socket REPLs
For a more powerful/full-featured solution see CIDER.
inf-clojure
's goal is to provide the simplest possible way to interact with a Clojure REPL.
In Emacs terminology "inferior" process is a subprocess started by Emacs (it being the "superior" process, of course).
inf-clojure
doesn't require much of setup, as at its core it simply runs a terminal REPL process, pipes input to it, and
processes its output. As the Clojure socket REPL works in exactly the same manner inf-clojure
can also interact with it.
Functionality like code completion and eldoc is powered by evaluation of predefined code snippets that provide the necessary results.
As different Clojure REPLs have different capabilities, inf-clojure
tracks the type of a REPL and invokes
the right code for each REPL type.
inf-clojure
is built on top of Emacs's comint. Unfortunately comint
is pretty light on official documentation, but there is a good overview/tutorial here.
Note: inf-clojure
requires Emacs 25 or newer.
inf-clojure
is available on the official NonGNU ELPA package.el
repo and on the community-maintained
MELPA Stable and MELPA repos.
NonGNU ELPA and MELPA Stable are recommended as they have the latest stable version.
MELPA has a development snapshot for users who don't mind breakage but
don't want to run inf-clojure
from a git checkout.
You can install inf-clojure
using the following command:
M-x package-install [RET] inf-clojure [RET]
or if you'd rather keep it in your Emacs config:
(unless (package-installed-p 'inf-clojure)
(package-refresh-contents)
(package-install 'inf-clojure))
If the installation doesn't work try refreshing the package list:
M-x package-refresh-contents
inf-clojure-minor-mode
will be auto-enabled for Clojure source buffers after you do
M-x inf-clojure
. You can disable this behavior by setting inf-clojure-auto-mode
to
nil
.
You can also add the following to your Emacs config to enable
inf-clojure-minor-mode
for Clojure source buffers, regardless of whether there's an inf-clojure
REPL running:
(add-hook 'clojure-mode-hook #'inf-clojure-minor-mode)
Warning: Don't enable inf-clojure-minor-mode
and cider-mode
at the same time. They
have overlapping functionality and keybindings and the result will be nothing
short of havoc.
Just invoke M-x inf-clojure
or press C-c C-z
within a Clojure
source file. You should get a prompt with the supported REPL types and
common startup forms. You can select one of these or type in your own
custom startup. This will start a REPL process for the current project
and you can start interacting with it.
If you want to use a socket REPL server, use M-x inf-clojure-socket-repl
which will start a socket server and connect to it for you.
If you've already started a socket REPL server, use M-x inf-clojure-connect
and enter its host and port numbers.
Inf-clojure aims to be very simple and offer tooling that the REPL itself exposes. A few commands are:
- eval last sexp (
C-x C-e
) - show arglists for function (
C-c C-a
) - show var documentation (
C-c C-v
) - show source (
C-c C-s
) - insert top level form into REPL (
C-c C-j d
)
For a list of all available commands in inf-clojure-mode
(a.k.a. the
REPL) and inf-clojure-minor-mode
you can either invoke C-h f RET inf-clojure-mode
and C-h f RET inf-clojure-minor-mode
or simply
browse their menus.
Many inf-clojure-minor-mode
commands by default act on the symbol at
point. You can, however, change this behaviour by invoking such
commands with a prefix argument. For instance: C-u C-c C-v
will ask
for the symbol you want to show the docstring for.
Note: The configuration options were changed massively in inf-clojure
3.0.
In the time-honoured Emacs tradition inf-clojure
's behaviour is extremely
configurable.
You can set custom values to inf-clojure
variables on a
per-project basis using directory
variables
or by setting them in in your init file.
You can see all the configuration options available using the command
M-x customize-group RET inf-clojure
.
While inf-clojure
is capable of starting many common REPLs out of the box, it's
fairly likely you will want to set some custom REPL startup command
(e.g. because you need to include some tools.deps
profile) and the REPL type
that goes with it. This is most easily achieved with the following .dir-locals.el
:
((nil
(inf-clojure-custom-startup . "clojure -A:compliment")
(inf-clojure-custom-repl-type . clojure)))
Note: This file has to be in the directory in which you're invoking inf-clojure
or a parent
directory.
There are two important configuration variables here:
inf-clojure-custom-startup
: Which startup command to use so inf-clojure can run the inferior Clojure process (REPL).inf-clojure-custom-repl-type
: The type of the REPL started by the above command (e.g.lumo
).
If these are set and you wish to prevent inf-clojure from using them,
use a prefix arg when invoking inf-clojure
(C-u M-x inf-clojure
).
The supported REPL-features are in an alist called
inf-clojure-repl-features
and it has the following shape:
'((cljs . ((doc . "(cljs.repl/doc %s)")
(source . "(cljs.repl/source %s)")
(arglists . "(try (->> '%s cljs.core/resolve cljs.core/meta :arglists) (catch :default _ nil))")
(apropos . "(cljs.repl/apropos \"%s\")")
(ns-vars . "(cljs.repl/dir %s)")
(set-ns . "(in-ns '%s)")
(macroexpand . "(cljs.core/macroexpand '%s)")
(macroexpand-1 . "(cljs.core/macroexpand-1 '%s)"))))
If you want to add a new REPL type, just do something like:
(add-to-list 'inf-clojure-repl-features
(cons new-repl-type '((doc . "(myrepl/doc-command %s")
(source . "...")
...)))
The inf-clojure-repl-features
data structure is just an
alist of alists, so you can manipulate it in numerous ways.
If you want to update a specific form there is a function
inf-clojure-update-repl-feature
which can be used like so:
(inf-clojure-update-feature 'clojure 'completion "(incomplete.core/completions \"%s\")")
As inf-clojure
is built on top of comint
it has all the usual comint limitations -
namely it can't handle well some fancy terminal features (e.g. ANSI colours).
In general the "dumber" your terminal REPL is, the better (e.g. clojure
vs clj
).
Connecting to a socket REPL is one simple way to avoid dealing with this type of
problems.
If you decide not to use the socket REPL, it is highly recommended
you disable output coloring and/or readline
facilities: inf-clojure
does not
filter out ASCII escape characters at the moment and will not behave correctly.
For Leiningen, there are no command-line switches and you need to add
a custom project.clj
option:
...
:repl-options {:color false}
...
If you have the new Clojure CLI tools installed you can use the clojure
command:
do not use clj
because it adds readline support
$ clojure -J-Dclojure.server.repl="{:port 5555 :accept clojure.core.server/repl}"
Then either C-c M-c RET localhost RET 5555
from within Emacs or add the following to your .dir-locals.el
:
((nil . ((inf-clojure-custom-startup . ("localhost" . 5555)))))
For Leiningen, add the following option to your ~/.lein/profiles.clj
or your project.clj
:
:jvm-opts ["-Dclojure.server.repl={:port 5555 :accept clojure.core.server/repl}"]
Then run lein repl
from within your project directory to start the
REPL. To connect, you can either m-x inf-clojure-connect [RET] localhost [RET] 5555
or you can put in a dir local file the
information on how connect:
((nil (inf-clojure-custom-startup "localhost" . 5555)))
The socket server REPL configuration options are described here.
Lumo is decoupled from inf-clojure-project-type
and therefore the command used depends on what you are using for dependency resolution.
For example if a project.clj
is present in the project root folder, inf-clojure-lein-cmd
will be used.
After you launch lumo ... -n 5555
, as customary, either C-c M-c RET localhost RET 5555
from within Emacs or add the following to your .dir-locals.el
:
((nil (inf-clojure-custom-startup "localhost" . 5555)))
To run multiple Clojure processes, you start the first up
with inf-clojure
. It will be in a buffer named *inf-clojure*
.
Rename this buffer with rename-buffer
. You may now start up a new
process with another inf-clojure
. It will be in a new buffer,
named *inf-clojure*
. You can switch between the different process
buffers with switch-to-buffer
.
Note: If you're starting inf-clojure
within a Clojure project directory
the name of the project will be incorporated into the name of the REPL buffer
- e.g.
*inf-clojure my-project*
.
Commands that send text from source buffers to Clojure processes (like inf-clojure-eval-defun
or inf-clojure-show-arglists
) have to choose a process to send to, when you have more than
one Clojure process around. This is determined by the global variable inf-clojure-buffer
.
Suppose you have three inferior Clojures running:
Buffer Process
------ -------
foo inf-clojure
bar inf-clojure<2>
*inf-clojure* inf-clojure<3>
If you do a inf-clojure-eval-defun
command on some Clojure source code,
what process do you send it to?
- If you're in a process buffer (foo, bar, or
*inf-clojure*
), you send it to that process. - If you're in some other buffer (e.g., a source file), you
send it to the process attached to buffer
inf-clojure-buffer
.
This process selection is performed by function inf-clojure-proc
.
Whenever inf-clojure
fires up a new process, it resets
inf-clojure-buffer
to be the new process's buffer. If you only run
one process, this does the right thing. If you run multiple
processes, you might need to change inf-clojure-buffer
to
whichever process buffer you want to use.
You can use the helpful function inf-clojure-set-repl
. If called in
an inf-clojure
REPL buffer, it will assign that buffer as the current
REPL ((setq inf-clojure-buffer (current-buffer)
). If you are
not in an inf-clojure
REPL buffer, it will offer a choice of
acceptable buffers to set as the REPL buffer. If called with a prefix,
it will always give the list even if you are currently in an
acceptable REPL buffer.
Tip: Renaming buffers will greatly improve the functionality of this list; the list "project-1: clojure repl", "project-2: cljs repl" is far more understandable than "inf-clojure", "inf-clojure<2>".
An inf-clojure
REPL has an associated type. The available types can be
obtained from inf-clojure-repl-features
:
(mapcar 'car inf-clojure-repl-features)
;; => (cljs lumo planck joker clojure babashka)
What does it mean that a REPL type is supported? Well, it means that
inf-clojure
would use the proper Clojure(Script) code internally to power
commands like definition lookup and friends. Those differ from REPL to REPL and
can't be implemented in a REPL-independent way. The REPL type is inferred on
startup when using the inf-clojure
command or is specified manually when using
inf-clojure-connect
.
eldoc-mode
is supported in Clojure source buffers and *inferior-clojure*
buffers which are running a Clojure REPL.
When ElDoc is enabled and there is an active REPL, it will show the argument
list of the function call you are currently editing in the echo area. It
accomplishes this by evaluating forms to get the metadata for the vars under
your cursor. One side effect of this is that it can mess with repl vars like
*1
and *2
. You can disable inf-clojure's Eldoc functionality with (setq inf-clojure-enable-eldoc nil)
.
ElDoc should be enabled by default in Emacs 26.1+. If it is not active by
default, you can activate ElDoc with M-x eldoc-mode
or by adding the following
to you Emacs config:
(add-hook 'clojure-mode-hook #'eldoc-mode)
(add-hook 'inf-clojure-mode-hook #'eldoc-mode)
ElDoc currently doesn't work with ClojureScript buffers and REPL's. You can leave it enabled, it just won't show anything in the echo area.
Code completion is a tricky aspect if you are trying to be as close to
a generic REPL as possible. Planck and lumo REPL implementations
explicitly provide completion functions in their REPL namespaces. For
clojure, you will need to have a library on your classpath. If you are
using a recent version of Leiningen, you already have
incomplete. You
could alternatively use compliment {:mvn/version "0.3.10"}
.
;; for incomplete
(inf-clojure-update-feature 'clojure 'completion "(incomplete.core/completions \"%s\")")
;; or
;; for compliment
(inf-clojure-update-feature 'clojure 'completion "(compliment.core/completions \"%s\")")
If you give a form for the completion form, it is your responsibility
to ensure that this namespace is on the classpath and required. If
using Leiningen, this is done for you with incomplete
. If adding
compliment
, the following sample deps.edn
can conveniently add the dep
to your program:
{:aliases {:compliment {:extra-deps {compliment {:mvn/version "0.3.10"}}}}}
Use the startup command: clojure -A:compliment
. Then require the ns
once so that the completion machinery will work: (require 'compliment.core)
. Now tab completion should work.
For more advanced customization, code completion is particularly open
to customization. Not only you can setq
the customary
inf-clojure-completion-form
, inf-clojure-completion-form-lumo
,
inf-clojure-completion-form-planck
and
inf-clojure-completion-form-joker
- the form to send to the REPL -
but you can also use inf-clojure-completions-fn
for specifying a
function that given the REPL response should return Elisp data
compatible with
completion-at-point-functions
.
For more info run M-x describe-variable RET inf-clojure-completions-fn
. Another option is to have a look at how
cider does
it.
For an optimal Lumo experience the -d
needs to be passed to Lumo
when launched from the command line. This disable readline
support
in order to play nicely with Emacs.
Inf-clojure is intentionally quite simple and just sends commands to a
REPL on your behalf to provide features. In order to do this
inf-clojure largely needs to know the REPL type so it can format the
correct calls. Most end up in (lumo.repl/doc [symbol])
or
(cljs.repl/doc ...)
so its important that the REPL type is set
correctly. This REPL type exists in the process buffer (REPL) and the
source buffers as a cache. If you have problems, run m-x inf-clojure-set-repl-type
from the source buffer to set the REPL type
in both buffers. To see how simple inf-clojure is, look at
inf-clojure-repl-features
to see largely how things are laid out.
In Windows, the REPL is not returning anything. For example, type (+ 1 1)
and press ENTER
, the cursor just drops to a new line and
nothing is shown.
The explanation of this problem and solution can be found here.
The solution is to create a file named .jline.rc
in your $HOME
directory and add this line to that file:
jline.terminal=unsupported
Standard Emacs debugging turns out to be difficult when an asynchronous process is involved. In this case try to enable logging:
(setq inf-clojure-log-activity t)
This creates .inf-clojure.log
in the project directory so that you can tail -f
on it.
Copyright © 2014-2022 Bozhidar Batsov and contributors.
Distributed under the GNU General Public License; type C-h C-c to view it.