Cape provides Completion At Point Extensions which can be used in combination
with Corfu, Company or the default completion UI. The completion backends used
by completion-at-point
are so called completion-at-point-functions
(Capfs).
You can register the cape-*
functions in the completion-at-point-functions
list.
This makes the backends available for completion, which is usually invoked by
pressing TAB
or M-TAB
. The functions can also be invoked interactively to
trigger the respective completion at point. You can bind them directly to a key
in your user configuration. Notable commands/Capfs are cape-line
for completion
of a line from the current buffer, cape-history
for history completion in shell
or Comint modes and cape-file
for completion of file names. The commands
cape-elisp-symbol
and cape-elisp-block
are useful for documentation of Elisp
packages or configurations, since they complete Elisp anywhere.
Cape has the super power to transform Company backends into Capfs and merge multiple Capfs into a Super-Capf! These transformers allow you to still take advantage of Company backends even if you are not using Company as frontend.
cape-abbrev
: Complete abbreviation (add-global-abbrev
,add-mode-abbrev
).cape-dabbrev
: Complete word from current buffers. See alsodabbrev-capf
on Emacs 29.cape-dict
: Complete word from dictionary file.cape-elisp-block
: Complete Elisp in Org or Markdown code block.cape-elisp-symbol
: Complete Elisp symbol.cape-emoji
: Complete Emoji. Available on Emacs 29 and newer.cape-file
: Complete file name.cape-history
: Complete from Eshell, Comint or minibuffer history.cape-keyword
: Complete programming language keyword.cape-line
: Complete entire line from current buffer.cape-rfc1345
: Complete Unicode char using RFC 1345 mnemonics.cape-sgml
: Complete Unicode char from SGML entity, e.g.,&alpha
.cape-tex
: Complete Unicode char from TeX command, e.g.\hbar
.
Cape is available on GNU ELPA and MELPA. You can install the package with
package-install
. In the following we present a sample configuration based on the
popular use-package
macro.
I recommend to bind the cape-*
completion commands to keys such that you can
invoke them explicitly. This makes particular sense for special Capfs which you
only want to trigger in rare circumstances. See the :bind
specification below.
Furthermore the cape-*
functions are Capfs which you can add to the
completion-at-point-functions
list. Take care when adding Capfs to the list
since each of the Capfs adds a small runtime cost. Note that the Capfs which
occur earlier in the list take precedence, such that the first Capf returning a
result will win and the later Capfs may not get a chance to run. In order to
merge Capfs you can try the experimental function cape-capf-super
.
One must distinguish the buffer-local and the global value of the
completion-at-point-functions
variable. The buffer-local value of the list takes
precedence, but if the buffer-local list contains the symbol t
at the end, it
means that the functions specified in the global list should be executed
afterwards. The special meaning of the value t
is a feature of the run-hooks
function, see the section “Running Hooks” in the Elisp manual for further
information.
;; Enable Corfu completion UI
;; See the Corfu README for more configuration tips.
(use-package corfu
:init
(global-corfu-mode))
;; Add extensions
(use-package cape
;; Bind dedicated completion commands
;; Alternative prefix keys: C-c p, M-p, M-+, ...
:bind (("C-c p p" . completion-at-point) ;; capf
("C-c p t" . complete-tag) ;; etags
("C-c p d" . cape-dabbrev) ;; or dabbrev-completion
("C-c p h" . cape-history)
("C-c p f" . cape-file)
("C-c p k" . cape-keyword)
("C-c p s" . cape-elisp-symbol)
("C-c p e" . cape-elisp-block)
("C-c p a" . cape-abbrev)
("C-c p l" . cape-line)
("C-c p w" . cape-dict)
("C-c p :" . cape-emoji)
("C-c p \\" . cape-tex)
("C-c p _" . cape-tex)
("C-c p ^" . cape-tex)
("C-c p &" . cape-sgml)
("C-c p r" . cape-rfc1345))
:init
;; Add to the global default value of `completion-at-point-functions' which is
;; used by `completion-at-point'. The order of the functions matters, the
;; first function returning a result wins. Note that the list of buffer-local
;; completion functions takes precedence over the global list.
(add-to-list 'completion-at-point-functions #'cape-dabbrev)
(add-to-list 'completion-at-point-functions #'cape-file)
(add-to-list 'completion-at-point-functions #'cape-elisp-block)
;;(add-to-list 'completion-at-point-functions #'cape-history)
;;(add-to-list 'completion-at-point-functions #'cape-keyword)
;;(add-to-list 'completion-at-point-functions #'cape-tex)
;;(add-to-list 'completion-at-point-functions #'cape-sgml)
;;(add-to-list 'completion-at-point-functions #'cape-rfc1345)
;;(add-to-list 'completion-at-point-functions #'cape-abbrev)
;;(add-to-list 'completion-at-point-functions #'cape-dict)
;;(add-to-list 'completion-at-point-functions #'cape-elisp-symbol)
;;(add-to-list 'completion-at-point-functions #'cape-line)
)
Wrap your Company backend in a Cape and turn it into a Capf!
Cape provides the adapter cape-company-to-capf
for Company backends. The adapter
transforms Company backends to Capfs which are understood by the built-in Emacs
completion mechanism. The function is approximately the inverse of the
company-capf
backend from Company. The adapter can be used as follows:
;; Use Company backends as Capfs.
(setq-local completion-at-point-functions
(mapcar #'cape-company-to-capf
(list #'company-files #'company-keywords #'company-dabbrev)))
Note that the adapter does not require Company to be installed or enabled.
Backends implementing the Company specification do not necessarily have to
depend on Company, however in practice most backends do. The following shows a
small example completion backend, which can be used with both
completion-at-point
(Corfu, default completion) and Company.
(defvar demo-alist
'((":-D" . "😀")
(";-)" . "😉")
(":-/" . "😕")
(":-(" . "🙁")
(":-*" . "😙")))
(defun demo-backend (action &optional arg &rest _)
(pcase action
('prefix (and (memq (char-before) '(?: ?\;))
(cons (string (char-before)) t)))
('candidates (all-completions arg demo-alist))
('annotation (concat " " (cdr (assoc arg demo-alist))))
('post-completion
(let ((str (buffer-substring (- (point) 3) (point))))
(delete-region (- (point) 3) (point))
(insert (cdr (assoc str demo-alist)))))))
;; Register demo backend with `completion-at-point'
(setq completion-at-point-functions
(list (cape-company-to-capf #'demo-backend)))
;; Register demo backend with Company.
(setq company-backends '(demo-backend))
It is possible to merge multiple Company backends and use them as a single Capf
using the company--multi-backend-adapter
function from Company. The adapter
transforms multiple Company backends into a single Company backend, which can
then be used as a Capf via cape-company-to-capf
. Capfs can be merged directly
with cape-capf-super
.
(require 'company)
;; Use the company-dabbrev and company-elisp backends together.
(setq completion-at-point-functions
(list
(cape-company-to-capf
(apply-partially #'company--multi-backend-adapter
'(company-dabbrev company-elisp)))))
Throw multiple Capfs under the Cape and get a Super-Capf!
Cape supports merging multiple Capfs using the function cape-capf-super
. This
feature is EXPERIMENTAL and should only be used carefully in special scenarios.
Due to some technical details, not all Capfs can be merged successfully. Merge
Capfs one by one and make sure that you get the desired outcome.
Note that cape-capf-super
is not needed if multiple Capfs should betried one
after the other, for example you can use cape-file
together with programming
mode Capfs by adding cape-file
to the completion-at-point-functions
list. File
completion will then be available in comments and string literals, but not in
normal code. cape-capf-super
is only necessary if you want to combine multiple
Capfs, such that the candidates from multiple sources appear together in the
completion list at the same time.
Capf merging requires completion functions which are sufficiently well-behaved
and completion functions which do not define completion boundaries.
cape-capf-super
has the same restrictions as completion-table-merge
and
completion-table-in-turn
. As a simple rule of thumb, cape-capf-super
works for
static completion functions like cape-dabbrev
, cape-keyword
, cape-dict
, etc.,
but not for multi-step completions like cape-file
.
;; Merge the dabbrev, dict and keyword capfs, display candidates together.
(setq-local completion-at-point-functions
(list (cape-capf-super #'cape-dabbrev #'cape-dict #'cape-keyword)))
;; Alternative: Define named Capf instead of using the anonymous Capf directly
(defun cape-dabbrev-dict-keyword ()
(cape-wrap-super #'cape-dabbrev #'cape-dict #'cape-keyword))
(setq-local completion-at-point-functions (list #'cape-dabbrev-dict-keyword))
See also the aforementioned company--multi-backend-adapter
from Company, which
allows you to merge multiple Company backends.
The Capf-Buster ensures that you always get a fresh set of candidates!
If a Capf caches the candidates for too long we can use a cache busting
Capf-transformer. For example the Capf merging function cape-capf-super
creates
a Capf, which caches the candidates for the whole lifetime of the Capf.
Therefore you may want to combine a merged Capf with a cache buster under some
circumstances. It is noteworthy that the company-capf
backend from Company
refreshes the completion table frequently. With the cape-capf-buster
we can
achieve a similarly refreshing strategy.
(setq-local completion-at-point-functions
(list (cape-capf-buster #'some-caching-capf)))
Cape provides a set of additional Capf transformation functions, which are
mostly meant to used by experts to fine tune the Capf behavior and Capf
interaction. These can either be used as advices (cape-wrap-*)
or to create a
new Capf from an existing Capf (cape-capf-*
). You can bind the Capfs created by
the Capf transformers with defalias
to a function symbol.
cape-capf-accept-all
,cape-wrap-accept-all
: Create a Capf which accepts every input as valid.cape-capf-case-fold
,cape-wrap-case-fold
: Create a Capf which is case insensitive.cape-capf-debug
,cape-wrap-debug
: Create a Capf which prints debugging messages.cape-capf-inside-code
,cape-wrap-inside-code
: Ensure that Capf triggers only inside code.cape-capf-inside-comment
,cape-wrap-inside-comment
: Ensure that Capf triggers only inside comments.cape-capf-inside-faces
,cape-wrap-inside-faces
: Ensure that Capf triggers only inside text with certain faces.cape-capf-inside-string
,cape-wrap-inside-string
: Ensure that Capf triggers only inside a string literal.cape-capf-interactive
,cape-interactive
: Create a Capf which can be called interactively.cape-capf-nonexclusive
,cape-wrap-nonexclusive
: Mark Capf as non-exclusive.cape-capf-noninterruptible
,cape-wrap-noninterruptible
: Protect a Capf which does not like to be interrupted.cape-capf-passthrough
,cape-wrap-passthrough
: Defeat entire completion style filtering.cape-capf-predicate
,cape-wrap-predicate
: Add candidate predicate to a Capf.cape-capf-prefix-length
,cape-wrap-prefix-length
: Enforce a minimal prefix length.cape-capf-properties
,cape-wrap-properties
: Add completion properties to a Capf.cape-capf-purify
,cape-wrap-purify
: Purify a broken Capf and ensure that it does not modify the buffer.cape-capf-silent
,cape-wrap-silent
: Silence Capf messages and errors.cape-capf-super
,cape-wrap-super
: Merge multiple Capfs into a Super-Capf.
In the following we show a few example configurations, which have come up on the Cape or Corfu issue tracker or the Corfu wiki. I use some of these tweaks in my personal configuration.
;; Example 1: Sanitize the `pcomplete-completions-at-point' Capf. The Capf has
;; undesired side effects on Emacs 28 and earlier. These advices are not needed
;; on Emacs 29 and newer.
(when (< emacs-major-version 29)
(advice-add 'pcomplete-completions-at-point :around #'cape-wrap-silent)
(advice-add 'pcomplete-completions-at-point :around #'cape-wrap-purify))
;; Example 2: Configure a Capf with a specific auto completion prefix length
(setq-local completion-at-point-functions
(list (cape-capf-prefix-length #'cape-dabbrev 2)))
;; Example 3: Create a Capf with debugging messages
(setq-local completion-at-point-functions (list (cape-capf-debug #'cape-dict)))
;; Example 4: Named Capf
(defalias 'cape-dabbrev-min-2 (cape-capf-prefix-length #'cape-dabbrev 2))
(setq-local completion-at-point-functions (list #'cape-dabbrev-min-2))
;; Example 5: Define a defensive Dabbrev Capf, which accepts all inputs. If you
;; use Corfu and `corfu-auto=t', the first candidate won't be auto selected if
;; `corfu-preselect=valid', such that it cannot be accidentally committed when
;; pressing RET.
(defun my-cape-dabbrev-accept-all ()
(cape-wrap-accept-all #'cape-dabbrev))
(add-to-list 'completion-at-point-functions #'my-cape-dabbrev-accept-all)
;; Example 6: Define interactive Capf which can be bound to a key. Here we wrap
;; the `elisp-completion-at-point' such that we can complete Elisp code
;; explicitly in arbitrary buffers.
(keymap-global-set "C-c p e" (cape-capf-interactive #'elisp-completion-at-point))
;; Example 7: Ignore :keywords in Elisp completion.
(defun ignore-elisp-keywords (sym)
(not (keywordp sym)))
(setq-local completion-at-point-functions
(list (cape-capf-predicate #'elisp-completion-at-point
#'ignore-elisp-keywords)))
Since this package is part of GNU ELPA contributions require a copyright assignment to the FSF.