There are various contortions for getting your Common Lisp started in a shell script and running some of your code. In the end, you're still falling back on writing Lisp like you're writing anything else: write, run, stop, repeat.
If only we could do this:
`lisp (defun my-command (x) (format t "If this were a real command, we would use ~A responsibly~%" x))
;; Make a wrapper to call this in our running Lisp! (make-command "my-command" 'my-command)
console $ my-command "foo" If this were a real command, we would use foo responsibly. $
Well, of course, that's exactly what ScriptL lets you do. Since this calls your running lisp, it means you're live coding your commands.
ScriptL requires the following things:
iolib (for listening)
osicat (for chmod)
Usage is simple:
lisp (asdf:load-system :scriptl) (scriptl:start)
Now you can call things via the shell scripts included in
console $ funcall princ "hello world" hello world $ eval '(princ "hello world")' hello world $ eval '(+ 1 1)' 2 $
Alternatively, once you have something you want as a more permanent command, you can use
SCRIPTL:MAKE-COMMAND as above:
lisp (make-command COMMAND-NAME FUNCTION-NAME &optional ERROR-HANDLER)
This will make a shell script called
COMMAND, probably in your home directory (or wherever you started lisp). It will call
FUNCTION-NAME, with any parameters passed to the script given as strings.
Alternatively, you can use the
make-command script included, which is a ScriptL wrapper for itself:
console $ make-script some-command some-function [error-function]
This will make the new script in the current working directory, because wrappered calls rebind
*DEFAULT-PATHNAME-DEFAULTS* for your convenience. Amusingly, you can use
make-script to generate itself:
console $ make-script make-script scriptl:make-script scriptl:make-script-usage
This will overwrite itself with an updated copy, assuming you're using an OS which isn't picky about such things.
Defaults and the Header
A number of useful things are set up by default:
- The default package is
- Wrappers set the current working directory
- The current script name is set in
- The parsed header is set in
As above, whenever a wrapper is run, ScriptL sets
*DEFAULT-PATHNAME-DEFAULTS* for you, which is enough for most Lisp functions to find the right file.
However, for things like
osicat, you may need to use
(merge-pathnames FILENAME) to get the appropriate thing.
You may find it interesting to dispatch on the script name, which is set in
SCRIPTL:*SCRIPT*. It's a pathname, so you can extract the various bits as appropriate.
Additionally, you can access the complete call information via
lisp (defun show-header (&rest args) scriptl:*header*)
(You don't have to use
&rest args; this is for demonstration.)
console $ funcall show-header 1 2 3 #S(SCRIPTL:HEADER :VERSION 1 :CWD #P"/path/to/current/dir/" :COMMAND (:FUNCALL 3 #P"./funcall") :FUN SHOW-HEADER :ARGS ("1" "2" "3") :ERROR-FUN NIL) $
Most of this isn't particularly interesting or beyond what you already get, but it's there.
The v2 client adds simple support for the GNU readline library. There are two basic operations:
readline PROMPT and
lisp (defun test () (format t "Type 'quit' to finish.~%") (loop as line = (readline "> ") until (string= line "quit") do (addhistory line) (format t "You typed: ~A~%" line)))
In the shell:
console Type 'quit' to finish. > foo You typed: foo > quit
If GNU readline support is compiled into the client (autodetected), this will have all the fancy editing features that provides, including history. If not, or if the function is not called from ScriptL, the prompt will be shown, but only basic terminal input is provided, and history is ignored.
Also included in v2 is support for remote
getenv(3), allowing client-side configuration via environment variables. This is done via the
This will return the value of a variable on the remote side, or for functions not being called via a ScriptL command, will fall back to
osicat-posix:getenv and return the environment for the running lisp.
In both cases, this returns the value of the variable as a string if set, or
The v2 protocol adds a custom client which supports standard lisp I/O operations on
*standard-output*. For example:
lisp (defun test-read-line () (format t "Read line: ~A~%" (read-line)))
console $ echo foo | test-read-line Read line: foo $
Additionally, you can use
read-char. The former two return octet vectors, which may be useful for processing data byte-by-byte.
Reading and writing may be interleaved as desired. Writing also supports
write-char. In order to write a raw byte sequence, however, it must be specified as an array with
:element-type '(unsigned-byte 8). Otherwise it will be treated as a general object, and be pretty-printed.
Results and Error Handling
When things run correctly, if there is output to
*standard-output*, this is shown to the user. If there is no output, the return values are shown instead:
console $ eval '(+ 2 2)' 4 $ eval '(values 1 2 3)' (VALUES 1 2 3) $
When things go wrong, the error condition is shown by default:
`console $ eval 'foo' Error: UNBOUND-VARIABLE
The variable FOO is unbound. $
If you want slightly more sophisticated handling, you can define an error handler when calling
MAKE-SCRIPT, which will get passed the condition via
HANDLER-BIND. If you handle it, return an non-
NIL value. If you can't handle the condition, return
examples/ directory has a number of examples; most of them are simply talking to the ScriptL server.
test-cmd example shows how to make a more shell-scripty-feeling function with more conventional means.
Alternatively, if you look at
src/make-script.lisp, you can see a (rather naïve) error handler which provides usage.
MAKE-SCRIPT also handles its parameters appropriately if they're strings.
This all works, of course, by making a server on a port in your Lisp and listening there. I really wanted to use Swank, but in the end the problem went from simply talking to swank to implementing READ in the shell, and that's a lot more work than just writing a new, more targeted server.
For V1, this relied on netcat. V2 presents a custom C client, which builds as part of the ASDF load operation, and supports a number of new features, such as I/O.
ScriptL initially used TCP port 4010. This is bad for a number of reasons .. each user can't have their own lisp, and anyone can access it. V2 uses Unix Domain Sockets by default, and only the owner can access it. This is restricted by file permissions.
You can still use the TCP server, by specifying
(scriptl:start :internet). You can adjust the port by binding
scriptl:*scriptl-port* to the desired port before doing this. This talks only to localhost. It's horribly insecure, though no moreso than swank/slime, really. If you're worried, or not the only person with access to your host, don't run it.
In theory, making this talk over an ssh tunnel would be pretty easy, but switching ports and doing the setup isn't at all nice.