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* Overview
Geiser is a generic Emacs/Scheme interaction mode, featuring an
enhanced REPL and a set of minor modes improving Emacs' basic scheme
major mode. The main functionalities provided are:
- Evaluation of forms in the namespace of the current module.
- Macro expansion.
- File/module loading.
- Namespace-aware identifier completion (including local bindings,
names visible in the current module, and module names).
- Autodoc: the echo area shows information about the signature of
the procedure/macro around point automatically.
- Jump to definition of identifier at point.
- Access to documentation (including docstrings when the
implementation provides it).
- Listings of identifiers exported by a given module.
- Listings of callers/callees of procedures.
- Rudimentary support for debugging (list of
evaluation/compilation error in an Emacs' compilation-mode
buffer).
- Support for inline images in schemes, such as Racket, that treat
them as first order values.
NOTE: if you're not in a hurry, [[http://www.nongnu.org/geiser/][Geiser's website]] contains a much
nicer manual.
* Requirements
Geiser needs Emacs 24 or better, and installing also at least one
of the supported scheme implementations.
The following schemes are supported via an independent package,
installable from MELPA:
- Chez 9.4 or better, via [[https://gitlab.com/emacs-geiser/chez][geiser-chez]]
- Chibi 0.7.3 or better, via [[https://gitlab.com/emacs-geiser/chibi][geiser-chibi]]
- Chicken 4.8.0 or better, via [[https://gitlab.com/emacs-geiser/chicken][geiser-chicken]]
- Gambit 4.9.3 or better, via [[https://gitlab.com/emacs-geiser/gambit][geiser-gambit]]
- Gauche 0.9.6 or better, via [[https://gitlab.com/emacs-geiser/gauche][geiser-gauche]]
- Guile 2.2 or better, via [[https://gitlab.com/emacs-geiser/guile][geiser-guile]]
- Kawa 3.1, via [[https://gitlab.com/emacs-geiser/kawa][geiser-kawa]]
- MIT/GNU Scheme, via [[https://gitlab.com/emacs-geiser/mit][geiser-mit]]
- Racket 6.0 or better, via [[https://gitlab.com/emacs-geiser/racket][geiser-racket]]
- Stklos 1.50, via [[https://gitlab.com/emacs-geiser/stklos][geiser-stklos]]
* Installation
The easiest way is to use MELPA, and just type
=M-x package-install RET geiser-<implementation>=
inside emacs, or the corresponding =use-package= stanza, for, say
#+begin_src emacs-lisp
(use-package geiser-mit :ensure t)
#+end_src
All the concrete implementation packages depend on the base =geiser=
package, so it'll be installed for you.
Some scheme implementations need additional installation steps to
fully support all geiser operations, so please do check their
corresponding web pages.
* Basic configuration
When opening a scheme file, Geiser will try to guess its Scheme,
defaulting to the first in the list
=geiser-active-implementations=. If you've installed more than one
geiser package, you can also use =C-c C-s= to select the
implementation by hand (on a per file basis).
Check the geiser customization group for some other options with:
#+begin_example
M-x customize-group RET geiser RET
#+end_example
In particular, customize =geiser-<impl>-binary=, which should point
to an executable in your path.
To start a REPL, run =M-x geiser=.
** Completion with company-mode
Geiser offers identifier and module name completion, bound to
=M-TAB= and =M-`= respectively. Only names visible in the current
module are offered.
While that is cool and all, things are even better: if you have
[[http://company-mode.github.io/][company mode]] installed, Geiser's completion will use it. Just
require company-mode and, from then on, any new scheme buffer or
REPL will use it.
** Macro expansion with macrostep-geiser
Geiser offers basic macro expansion in a dedicated buffer. If you
prefer in-buffer, step by step expansion, please take a look at
Nikita Bloshchanevich's [[https://github.com/nbfalcon/macrostep-geiser][macrostep-geiser]].
* Quick key reference
(See also [[http://geiser.nongnu.org/geiser_5.html#Cheat-sheet][the online manual]]'s cheat sheet)
** In Scheme buffers:
|-------------+--------------------------------------------------|
| C-c C-s | Specify Scheme implementation for buffer |
| C-c C-z | Switch to REPL |
| C-c C-a | Switch to REPL and current module |
|-------------+--------------------------------------------------|
|-------------+--------------------------------------------------|
| M-. | Go to definition of identifier at point |
| M-, | Go back to where M-. was last invoked |
| C-c C-e m | Ask for a module and open its file |
| C-c C-e C-l | Add a given directory to Scheme's load path |
| C-c C-e [ | Toggle between () and [] for current form |
| c-c C-e \ | Insert λ |
|-------------+--------------------------------------------------|
|-------------+--------------------------------------------------|
| C-M-x | Eval definition around point |
| C-c C-c | Eval definition around point |
| C-c M-e | Eval definition around point and switch to REPL |
| C-x C-e | Eval sexp before point |
| C-c C-r | Eval region |
| C-c M-r | Eval region and switch to REPL |
| C-c C-b | Eval buffer |
| C-c M-b | Eval buffer and switch to REPL |
|-------------+--------------------------------------------------|
|-------------+--------------------------------------------------|
| C-c C-m x | Macro-expand definition around point |
| C-c C-m e | Macro-expand sexp before point |
| C-c C-m r | Macro-expand region |
|-------------+--------------------------------------------------|
|-------------+--------------------------------------------------|
| C-c C-k | Compile and load current buffer |
| C-c C-l | Load scheme file |
| C-u C-c C-k | Compile and load current buffer, restarting REPL |
|-------------+--------------------------------------------------|
|-------------+--------------------------------------------------|
| C-c C-d d | See documentation for identifier at point |
| C-c C-d s | See short documentation for identifier at point |
| C-c C-d i | Look up manual for identifier at point |
| C-c C-d m | See a list of a module's exported identifiers |
| C-c C-d a | Toggle autodoc mode |
|-------------+--------------------------------------------------|
|-------------+--------------------------------------------------|
| C-c < | Show callers of procedure at point |
| C-c > | Show callees of procedure at point |
|-------------+--------------------------------------------------|
|-------------+--------------------------------------------------|
| M-TAB | Complete identifier at point |
| M-`, C-. | Complete module name at point |
| TAB | Complete identifier at point or indent |
| | (If geiser-mode-smart-tab-p is t) |
|-------------+--------------------------------------------------|
** In the REPL
|-------------+----------------------------------------------------|
| C-c C-z | Start Scheme REPL, or jump to previous buffer |
| C-c M-o | Clear scheme output |
| C-c C-q | Kill Scheme process |
| C-c C-l | Load scheme file |
| C-c C-k | Nuke REPL: use it if the REPL becomes unresponsive |
|-------------+----------------------------------------------------|
|-------------+----------------------------------------------------|
| M-. | Edit identifier at point |
| TAB, M-TAB | Complete identifier at point |
| M-`, C-. | Complete module name at point |
| M-p, M-n | Prompt history, matching current prefix |
|-------------+----------------------------------------------------|
|-------------+----------------------------------------------------|
| C-c \ | Insert λ |
| C-c [ | Toggle between () and [] for current form |
|-------------+----------------------------------------------------|
|-------------+----------------------------------------------------|
| C-c C-m | Set current module |
| C-c C-i | Import module into current namespace |
| C-c C-r | Add a given directory to scheme's load path |
|-------------+----------------------------------------------------|
|-------------+----------------------------------------------------|
| C-c C-d C-d | See documentation for symbol at point |
| C-c C-d C-m | See documentation for module |
| C-c C-d C-a | Toggle autodoc mode |
|-------------+----------------------------------------------------|
** In the documentation browser:
|----------+----------------------------------------------|
| f | Next page |
| b | Previous page |
|----------+----------------------------------------------|
|----------+----------------------------------------------|
| TAB, n | Next link |
| S-TAB, p | Previous link |
| N | Next section |
| P | Previous section |
|----------+----------------------------------------------|
|----------+----------------------------------------------|
| k | Kill current page and go to previous or next |
| g, r | Refresh page |
| c | Clear browsing history |
|----------+----------------------------------------------|
|----------+----------------------------------------------|
| ., M-. | Edit identifier at point |
| z | Switch to REPL |
|----------+----------------------------------------------|
|----------+----------------------------------------------|
| q | Bury buffer |
|----------+----------------------------------------------|
** In backtrace (evaluation/compile result) buffers:
- =M-g n=, =M-g p=, =C-x `= for error navigation.
- =q= to bury buffer.
* How to support a new scheme implementation
Geiser works by running an instance of a REPL, or remotely connecting
to one, and evaluating the scheme code it sees there. Then, every time
it needs to perform some operation (like, say, printing autodoc,
jumping to a source location or expanding a macro), it asks the
running scheme instance for that information.
So supporting a new scheme usually means writing a small scheme
library that provides that information on demand, and then some
standard elisp functions that invoke the procedures in that
library.
To see what elisp functions one needs to implement, just execute the
command `M-x geiser-implementation-help` inside emacs with a recent
version of geiser installed. And then take a look at, say,
geiser-guile.el or geiser-racket.el for examples of how those
functions are implemented for concrete schemes (those are the most
featureful implementations we have, so perhaps it's easier to begin
with something like geiser-chicken.el or geiser-chibi.el).
Not all schemes can provide introspective information to implement all
the functionality that geiser tries to offer. That is okay: you can
leave as many functions unimplemented as you see fit (there is even an
explicit list of unsupported features), and geiser will still know how
to use the ones that are implemented.
|