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README.org |
C/C++ layer
- Description
- Install
- Key bindings
Description
This layer adds configuration for C/C++ language.
Features:
-
Multiple backends support:
- LSP with either
clangd
or ccls - rtags (gtags)
- emacs-ycmd
- LSP with either
- Support for debuggers realgud and dap (with LSP backend)
- Support syntax checking via flycheck (
syntax-checking
layer required) - Auto-completion via company (
auto-completion
layer required) - Support code reformatting with clang-format.
- Support for disassembly of code with disaster.
-
sematic
layer integration:- Function or variable definition at the bottom
- Current function cursor is at the top. See stickyfunc-demos for demos in some programming languages.
- Support common refactoring with semantic-refactor. See srefactor-demos for demonstration of refactoring features.
-
cscope
layer integration:- code navigation
Install
Layer
To use this configuration layer, add it to your ~/.spacemacs
. You will need to
add c-c++
to the existing dotspacemacs-configuration-layers
list in this
file.
Backends
Supported backends are:
lsp-clangd
using clangd LSP serverlsp-ccls
using ccls LSP serverrtags
using rtagsycmd
using emacs-ycmd
To choose a default backend set the layer variable c-c++-backend
:
(c-c++ :variables c-c++-backend 'lsp-clangd)
Alternatively the lsp-clangd
backend will be automatically chosen if the layer
lsp
is used and you did not specify any value for c-c++-backend
.
Note: It is recommended to use a modern backend like the lsp
ones.
The backend can be chosen on a per project basis using directory local variables
(files named .dir-locals.el
at the root of a project), an example is to use the
lsp-ccls
backend:
;;; Directory Local Variables
;;; For more information see (info "(emacs) Directory Variables")
((c++-mode (c-c++-backend . lsp-ccls)))
Note: you can easily add a directory local variable with SPC f v d
.
LSP
LSP support is provided via the LSP layer, using one of three available backends (all based on libclang).
They claim to be more efficient than existing tools at indexing large code bases.
Features
- Cross references (definitions, references, base/derived classes/methods, type instances, …)
- Diagnostics
- Completion with
lsp
- Semantic highlighting (
ccls
orclangd
) - Cross-platform - functional on Windows, Linux and macOS.
External dependencies
Install one (or more) of the following (clangd
is used by default):
clangd
Install clang
using a binary distribution downloaded from the LLVM releases
page or via your package manager. This is the default implementation that's used by the
Emacs lsp-mode
package and probably the easiest to install.
ccls server
Install the ccls
server. See instructions. This is currently the most fully
featured implementation, including semantic highlighting and some navigation/
introspection features that are not provided by clangd.
Note that prebuild binaries exist for most Linux distros and MacOS using Homebrew.
Configuration
Basic
To use the default clangd
language server, select lsp-clangd
as the c-c++
layer backend by adding the following to your dotfile:
(setq-default dotspacemacs-configuration-layers
'((c-c++ :variables c-c++-backend 'lsp-clangd)))
Selecting an alternate LSP server
To choose an alternate LSP server set the layer variable c-c++-backend
to
another supported backend, for instance lsp-ccls
:
(setq-default dotspacemacs-configuration-layers
'((c-c++ :variables c-c++-backend 'lsp-ccls)))
Path to LSP server executables
LSP expects to find the LSP server executables in your PATH
. If you want to
specify the location of an executable then you need to set the appropriate
variable:
Server | Variable name |
---|---|
clangd | lsp-clients-clangd-executable |
ccls | ccls-executable |
Semantic highlighting
Currently only available for lsp-ccls
and clangd
. Semantic highlighting
can precisely highlight identifiers.
Semantic highlighting is disabled by default. To enable it set the layer
c-c++-lsp-enable-semantic-highlight
to non-nil. It is possible to give a
different color for each identifier by setting the variable to 'rainbow
.
When semantic highlighting is enabled then the method that's used to highlight the text
relies on Emacs' fastest font-lock
mechanism. A more
accurate but also slower method is to use overlays. To use overlays set
the layer variable c-c++-lsp-semantic-highlight-method
to 'overlay
.
Cache directory (absolute or relative)
clangd
cache directoy is .clangd
and cannot be changed.
ccls
default directory is .ccls-cache
, it can be changed by setting the
:cache
option in the variable ccls-initialization-options
.
See the full list of configuration options you can set at:
Example dotspacemacs-configuration-layers entry
(setq-default dotspacemacs-configuration-layers
'((c-c++ :variables
c-c++-adopt-subprojects t
c-c++-backend 'lsp-ccls
c-c++-lsp-enable-semantic-highlight 'rainbow)))
Completion
company-capf
provides completion functionality. Client-side cache and sorting
have been disabled in favour of server,
as recommended by ccls
wikis.
Debugger (dap integration)
To install the debug adapter you may run M-x dap-gdb-lldb-setup
when you are
on Linux or download it manually from Native Debug and adjust the
dap-gdb-lldb-path
variable.
rtags
rtags is a well established clang-based source code indexing tool.
External dependencies
Install the RTags server via homebrew, the aur or from source according to the instructions here.
Note: RTags is not supported on Windows at the time of writing, although there is an open issue with some recent activity on github.
Configuration
To enable support for rtags
, set the layer variable c-c++-backend
:
(setq-default dotspacemacs-configuration-layers
'((c-c++ :variables c-c++-backend 'rtags)))
This will also enable company-rtags
to be used as a backend for
auto-completion (when the auto-completion
layer is enabled).
To prevent this, while retaining the rest of Rtags' functionality,
set the variable c-c++-rtags-completion
to nil
:
(setq-default dotspacemacs-configuration-layers
'((c-c++ :variables
c-c++-backend 'rtags
c-c++-enable-rtags-completion nil)))
Default mode for header files
The mode for header files is auto detected by `c-or-c++-mode' in Emacs > 26.1+.
Older versions of Emacs will open header files in c-mode
by default, you can open them in
c++-mode
by setting the variable c-c++-default-mode-for-headers
as follow.
(setq-default dotspacemacs-configuration-layers
'((c-c++ :variables c-c++-default-mode-for-headers 'c++-mode)))
Note: To set the variable for a given project, create a directory local variable at the root of your project. More info on directory local variables can be found in the manual: dir-locals.
Organize file header includes on save
To organize the file header includes on save, set the layer variable
c++-enable-organize-includes-on-save
to t
in the dotfile:
(setq-default dotspacemacs-configuration-layers
'((c-c++ :variables c++-enable-organize-includes-on-save t)))
clang-format
clang-format allows for reformatting either a selected region of code
(clang-format-region
) or a whole buffer (clang-format-buffer
) according to a
style defined in a .clang-format
file. This file is either located in the same
directory as the file being edited, or in any of its parent directories. If no
.clang-format
file is found, then a default style will be used.
To enable automatic buffer formatting on save, set the variable
c-c++-enable-clang-format-on-save
to t
:
(setq-default dotspacemacs-configuration-layers
'((c-c++ :variables c-c++-enable-clang-format-on-save t)))
Enable google-set-c-style
If you have clang enabled with clang-format
as described earlier in this page
you may not have a lot of neeed for google-set-c-style
if you are already
using a mode based on Google mode for most of your projects.
However, if you don't have (or want) clang-format
, or if you have to do a lot
Tramp remote editing on systems that don't have clang-format
installed, you
may want google-c-style
enabled and added to your common hooks.
To get google-c-style
actually install itself into your C/C++ common hooks,
you need to have c-c++-enable-google-style
defined to true when you load the
C-C++ lang in Spacemacs. In your ~/.spacemacs
file, a possible way that this
would look is that in your list of dostpacemacs-configuration-layers
you have
an entry like
(c-c++ :variables c-c++-enable-google-style t)
Additionally, if you have c-c++-enable-google-newline
variable set then
`google-make-newline-indent
will be set as a c-mode-common-hook
. You would
set that up like this:
(c-c++ :variables c-c++-enable-google-style t
c-c++-enable-google-newline t)
Newlines
You can enable the Auto-newline
minor mode that automatically adds newlines
after certain characters by setting the c-c++-enable-auto-newline
variable.
(c-c++ :variables c-c++-enable-auto-newline t)
Projectile sub-project adoption
To prevent projectile from using subproject root when visiting files in a subproject,
set c-c++-adopt-subprojects
to t
.
(c-c++ :variables c-c++-adopt-subprojects t)
This is based on a recommendation on the ccls
wikis, but should be more
generally applicable.
Key bindings
LSP
The default key bindings for the LSP implementations are defined and documented in the LSP layer.
ccls
A [ccls]
suffix indicates that the binding is for the indicated backend only.
backend (language server)
Key binding | Description |
---|---|
SPC m b f |
refresh index (e.g. after branch change) |
SPC m b p |
preprocess file |
goto
Key binding | Description |
---|---|
SPC m g & |
find references (address) |
SPC m g R |
find references (read) |
SPC m g W |
find references (write) |
SPC m g c |
find callers |
SPC m g C |
find callees |
SPC m g v |
vars |
SPC m g f |
find file at point (ffap) |
SPC m g F |
ffap other window |
goto/hierarchy
Key binding | Description |
---|---|
SPC m g h b |
base class(es) |
SPC m g h d |
derived class(es) [ccls] |
SPC m g h c |
call hierarchy |
SPC m g h C |
call hierarchy (inv) |
SPC m g h i |
inheritance hierarchy |
SPC m g h I |
inheritance hierarchy (inv) |
goto/member
Key binding | Description |
---|---|
SPC m g m h |
member hierarchy |
SPC m g m t |
member types [ccls] |
SPC m g m f |
member functions [ccls] |
SPC m g m v |
member variables [ccls] |
debugger
Key binding | Description |
---|---|
SPC m d d d |
start debugging |
SPC m d d l |
debug last configuration |
SPC m d d r |
debug recent configuration |
SPC m d c |
continue |
SPC m d i |
step in |
SPC m d o |
step out |
SPC m d s |
next step |
SPC m d v |
inspect value at point |
SPC m d r |
restart frame |
SPC m d . |
debug transient state |
SPC m d a |
abandon current session |
SPC m d A |
abandon all process |
SPC m d e e |
eval |
SPC m d e r |
eval region |
SPC m d e t |
eval value at point |
SPC m d S s |
switch session |
SPC m d S t |
switch thread |
SPC m d S f |
switch frame |
SPC m d I i |
inspect |
SPC m d I r |
inspect region |
SPC m d I t |
inspect value at point |
SPC m d b b |
toggle a breakpoint |
SPC m d b c |
change breakpoint condition |
SPC m d b l |
change breakpoint log condition |
SPC m d b h |
change breakpoint hit count |
SPC m d b a |
add a breakpoint |
SPC m d b d |
delete a breakpoint |
SPC m d b D |
clear all breakpoints |
SPC m d '_ |
Run debug REPL |
SPC m d w l |
list local variables |
SPC m d w o |
goto output buffer if present |
SPC m d w s |
list sessions |
SPC m d w b |
list breakpoints |
RTags
Key binding | Description |
---|---|
SPC m g . |
find symbol at point |
SPC m g , |
find references at point |
SPC m g ; |
find file |
SPC m g / |
find all references at point |
SPC m g [ |
location stack back |
SPC m g ] |
location stack forward |
SPC m g > |
c++ tags find symbol |
SPC m g < |
c++ tags find references |
SPC m g B |
show rtags buffer |
SPC m g d |
print dependencies |
SPC m g D |
diagnostics |
SPC m g e |
reparse file |
SPC m g E |
preprocess file |
SPC m g F |
fixit |
SPC m g G |
guess function at point |
SPC m g h |
print class hierarchy |
SPC m g I |
c++ tags imenu |
SPC m g L |
copy and print current location |
SPC m g M |
symbol info |
SPC m g O |
goto offset |
SPC m g p |
set current project |
SPC m g R |
rename symbol |
SPC m g s |
print source arguments |
SPC m g S |
display summary |
SPC m g T |
taglist |
SPC m g v |
find virtuals at point |
SPC m g V |
print enum value at point |
SPC m g X |
fix fixit at point |
SPC m g Y |
cycle overlays on screen |
Additional key bindings
Disassemble
Key binding | Description |
---|---|
SPC m D |
disaster: disassemble c/c++ code |
Formatting (clang-format)
Key binding | Description |
---|---|
SPC m = = |
format current region or buffer |
SPC m = f |
format current function |
Open matching files
Key binding | Description |
---|---|
SPC m g a |
open matching file |
(e.g. switch between .cpp and .h, requires a project to work) | |
SPC m g A |
open matching file in another window |
(e.g. switch between .cpp and .h, requires a project to work) |
Refactor
Key binding | Description |
---|---|
SPC m r . |
srefactor: refactor thing at point. |
SPC m r i |
organize includes |