A Clojure babushka for the grey areas of Bash.
Really enjoying Babashka. Life's too short to remember how to write Bash code. I feel liberated.
— @laheadle on Clojurians Slack
Thanks a million @borkdude!
$ bash <(curl -s https://raw.githubusercontent.com/borkdude/babashka/master/install)
$ ls | bb --time -i '(filter #(-> % io/file .isDirectory) *input*)'
("doc" "resources" "sci" "script" "src" "target" "test")
bb took 4ms.
The sweet spot for babashka is executing Clojure snippets or scripts in the same space where you would use Bash.
As one user described it:
I’m quite at home in Bash most of the time, but there’s a substantial grey area of things that are too complicated to be simple in bash, but too simple to be worth writing a clj/s script for. Babashka really seems to hit the sweet spot for those cases.
Goals:
Non-goals:
Reasons why babashka may not be the right fit for your use case:
load-file
for
loading external scripts).Read more about the differences with Clojure here.
Experimental. Breaking changes are expected to happen at this phase. Keep an eye on CHANGES.md for a list of breaking changes.
$ ls | bb -i '*input*'
["LICENSE" "README.md" "bb" "doc" "pom.xml" "project.clj" "reflection.json" "resources" "script" "src" "target" "test"]
$ ls | bb -i '(count *input*)'
12
$ bb '(vec (dedupe *input*))' <<< '[1 1 1 1 2]'
[1 2]
$ bb '(filterv :foo *input*)' <<< '[{:foo 1} {:bar 2}]'
[{:foo 1}]
$ bb '(#(+ %1 %2 %3) 1 2 *input*)' <<< 3
6
$ ls | bb -i '(filterv #(re-find #"reflection" %) *input*)'
["reflection.json"]
$ bb '(run! #(shell/sh "touch" (str "/tmp/test/" %)) (range 100))'
$ ls /tmp/test | bb -i '*input*'
["0" "1" "10" "11" "12" "13" "14" "15" "16" "17" "18" "19" "2" "20" "21" ...]
$ bb -O '(repeat "dude")' | bb --stream '(str *input* "rino")' | bb -I '(take 3 *input*)'
("duderino" "duderino" "duderino")
More examples can be found in the gallery.
Linux and macOS binaries are provided via brew.
Install:
brew install borkdude/brew/babashka
Upgrade:
brew upgrade babashka
babashka
is available in the Arch User Repository. It can be installed using your favorite AUR helper such as
yay, yaourt, apacman and pacaur. Here is an example using yay
:
yay -S babashka-bin
Install via the installer script:
$ bash <(curl -s https://raw.githubusercontent.com/borkdude/babashka/master/install)
By default this will install into /usr/local/bin
. To change this, provide the directory name:
$ bash <(curl -s https://raw.githubusercontent.com/borkdude/babashka/master/install) /tmp
You may also download a binary from Github.
Usage: bb [ -i | -I ] [ -o | -O ] [ --stream ] [--verbose]
[ ( --classpath | -cp ) <cp> ] [ ( --main | -m ) <main-namespace> ]
( -e <expression> | -f <file> | --repl | --socket-repl [<host>:]<port> )
[ arg* ]
Options:
--help, -h or -? Print this help text.
--version Print the current version of babashka.
-i Bind *input* to a lazy seq of lines from stdin.
-I Bind *input* to a lazy seq of EDN values from stdin.
-o Write lines to stdout.
-O Write EDN values to stdout.
--verbose Print entire stacktrace in case of exception.
--stream Stream over lines or EDN values from stdin. Combined with -i or -I *input* becomes a single value per iteration.
-e, --eval <expr> Evaluate an expression.
-f, --file <path> Evaluate a file.
-cp, --classpath Classpath to use.
-m, --main <ns> Call the -main function from namespace with args.
--repl Start REPL
--socket-repl Start socket REPL. Specify port (e.g. 1666) or host and port separated by colon (e.g. 127.0.0.1:1666).
--time Print execution time before exiting.
If neither -e, -f, or --socket-repl are specified, then the first argument that is not parsed as a option is treated as a file if it exists, or as an expression otherwise.
Everything after that is bound to *command-line-args*.
The clojure.core
functions are accessible without a namespace alias.
The following namespaces are required by default and available through the
pre-defined aliases in the user
namespace. You may use require
+ :as
and/or :refer
on these namespaces. If not all vars are available, they are
enumerated explicitly.
clojure.string
aliased as str
clojure.set
aliased as set
clojure.edn
aliased as edn
:
read-string
clojure.java.shell
aliases as shell
:
sh
clojure.java.io
aliased as io
:
as-relative-path
, copy
, delete-file
, file
clojure.core.async
aliased as
async
. The alt
and go
macros are not available but alts!!
does work as
it is a function.clojure.tools.cli
aliased as tools.cli
clojure.data.csv
aliased as csv
cheshire.core
aliased as json
The following Java classes are available:
ArithmeticException
AssertionError
Boolean
Class
Double
Exception
clojure.lang.ExceptionInfo
Integer
Math
java.io.File
java.nio.file.Files
java.util.Base64
java.util.regex.Pattern
ProcessBuilder
(see example).String
System
Thread
More classes can be added by request. See reflection.json
and the :classes
option in main.clj
.
Babashka supports import
: (import clojure.lang.ExceptionInfo)
.
Babashka supports a subset of the ns
form where you may use :require
and :import
:
(ns foo
(:require [clojure.string :as str])
(:import clojure.lang.ExceptionInfo))
For the unsupported parts of the ns form, you may use reader conditionals to maintain compatibility with JVM Clojure.
In one-liners the *input*
value may come in handy. It contains the input read from stdin as EDN by default. If you want to read in text, use the -i
flag, which binds *input*
to a lazy seq of lines of text. If you want to read multiple EDN values, use the -I
flag. The -o
option prints the result as lines of text. The -O
option prints the result as lines of EDN values.
The following table illustrates the combination of options for commands of the form
echo "{{Input}}" | bb {{Input flags}} {{Output flags}} "*input*"
Input | Input flags | Output flag | *input* | Output |
---|---|---|---|---|
{:a 1} {:a 2} | {:a 1} | {:a 1} | ||
hello bye | -i | ("hello" "bye") | ("hello" "bye") | |
hello bye | -i | -o | ("hello" "bye") | hello bye |
{:a 1} {:a 2} | -I | ({:a 1} {:a 2}) | ({:a 1} {:a 2}) | |
{:a 1} {:a 2} | -I | -O | ({:a 1} {:a 2}) | {:a 1} {:a 2} |
When combined with the --stream
option, the expression is executed for each value in the input:
$ echo '{:a 1} {:a 2}' | bb --stream '*input*'
{:a 1}
{:a 2}
The var *file*
contains the full path of the file that is currently being
executed:
$ cat example.clj
(prn *file*)
$ bb example.clj
"/Users/borkdude/example.clj"
Command-line arguments can be retrieved using *command-line-args*
.
Additionally, babashka adds the following functions:
wait/wait-for-port
. Usage:(wait/wait-for-port "localhost" 8080)
(wait/wait-for-port "localhost" 8080 {:timeout 1000 :pause 1000})
Waits for TCP connection to be available on host and port. Options map supports :timeout
and :pause
. If :timeout
is provided and reached, :default
's value (if any) is returned. The :pause
option determines the time waited between retries.
wait/wait-for-path
. Usage:(wait/wait-for-path "/tmp/wait-path-test")
(wait/wait-for-path "/tmp/wait-path-test" {:timeout 1000 :pause 1000})
Waits for file path to be available. Options map supports :default
, :timeout
and :pause
. If :timeout
is provided and reached, :default
's value (if any) is returned. The :pause
option determines the time waited between retries.
sig/pipe-signal-received?
. Usage:(sig/pipe-signal-received?)
Returns true if PIPE
signal was received. Example:
$ bb '((fn [x] (println x) (when (not (sig/pipe-signal-received?)) (recur (inc x)))) 0)' | head -n2
1
2
Scripts may be executed from a file using -f
or --file
:
bb -f download_html.clj
Files can also be loaded inline using load-file
:
bb '(load-file "script.clj")'
Using bb
with a shebang also works:
#!/usr/bin/env bb
(defn get-url [url]
(println "Fetching url:" url)
(let [{:keys [:exit :err :out]} (shell/sh "curl" "-sS" url)]
(if (zero? exit) out
(do (println "ERROR:" err)
(System/exit 1)))))
(defn write-html [file html]
(println "Writing file:" file)
(spit file html))
(let [[url file] *command-line-args*]
(when (or (empty? url) (empty? file))
(println "Usage: <url> <file>")
(System/exit 1))
(write-html file (get-url url)))
(System/exit 0)
$ ./download_html.clj
Usage: <url> <file>
$ ./download_html.clj https://www.clojure.org /tmp/clojure.org.html
Fetching url: https://www.clojure.org
Writing file: /tmp/clojure.org.html
If /usr/bin/env
doesn't work for you, you can use the following workaround:
$ cat script.clj
#!/bin/sh
#_(
"exec" "bb" "$0" hello "$@"
)
(prn *command-line-args*)
./script.clj 1 2 3
("hello" "1" "2" "3")
The environment variable BABASHKA_PRELOADS
allows to define code that will be
available in all subsequent usages of babashka.
BABASHKA_PRELOADS='(defn foo [x] (+ x 2))'
BABASHKA_PRELOADS=$BABASHKA_PRELOADS' (defn bar [x] (* x 2))'
export BABASHKA_PRELOADS
Note that you can concatenate multiple expressions. Now you can use these functions in babashka:
$ bb '(-> (foo *input*) bar)' <<< 1
6
You can also preload an entire file using load-file
:
export BABASHKA_PRELOADS='(load-file "my_awesome_prelude.clj")'
Note that *input*
is not available in preloads.
Babashka accepts a --classpath
option that will be used to search for
namespaces and load them:
$ cat src/my/namespace.clj
(ns my.namespace)
(defn -main [& _args]
(println "Hello from my namespace!"))
$ bb --classpath src --main my.namespace
Hello from my namespace!
Note that you can use the clojure
tool to produce classpaths and download dependencies:
$ cat deps.edn
{:deps
{my_gist_script
{:git/url "https://gist.github.com/borkdude/263b150607f3ce03630e114611a4ef42"
:sha "cfc761d06dfb30bb77166b45d439fe8fe54a31b8"}}}
$ CLASSPATH=$(clojure -Spath)
$ bb --classpath "$CLASSPATH" --main my-gist-script
Hello from gist script!
If there is no --classpath
argument, the BABASHKA_CLASSPATH
environment
variable will be used:
$ export BABASHKA_CLASSPATH=$(clojure -Spath)
$ export BABASHKA_PRELOADS="(require '[my-gist-script])"
$ bb "(my-gist-script/-main)"
Hello from gist script!
Babashka ships with clojure.tools.cli
:
(require '[clojure.tools.cli :refer [parse-opts]])
(def cli-options
;; An option with a required argument
[["-p" "--port PORT" "Port number"
:default 80
:parse-fn #(Integer/parseInt %)
:validate [#(< 0 % 0x10000) "Must be a number between 0 and 65536"]]
["-h" "--help"]])
(:options (parse-opts *command-line-args* cli-options))
$ bb script.clj
{:port 80}
$ bb script.clj -h
{:port 80, :help true}
Babashka supports reader conditionals using the :bb
feature:
$ cat example.clj
#?(:clj (in-ns 'foo) :bb (println "babashka doesn't support in-ns yet!"))
$ ./bb example.clj
babashka doesn't support in-ns yet!
Start the socket REPL like this:
$ bb --socket-repl 1666
Babashka socket REPL started at localhost:1666
Now you can connect with your favorite socket REPL client:
$ rlwrap nc 127.0.0.1 1666
Babashka v0.0.14 REPL.
Use :repl/quit or :repl/exit to quit the REPL.
Clojure rocks, Bash reaches.
bb=> (+ 1 2 3)
6
bb=> :repl/quit
$
A socket REPL client for Emacs is inf-clojure.
Use the java.lang.ProcessBuilder
class.
Example:
user=> (def ws (-> (ProcessBuilder. ["python" "-m" "SimpleHTTPServer" "1777"]) (.start)))
#'user/ws
user=> (wait/wait-for-port "localhost" 1777)
{:host "localhost", :port 1777, :took 2}
user=> (.destroy ws)
nil
Also see this example.
Apart from future
and pmap
for creating threads, you may use the async
namespace, which maps to clojure.core.async
, for asynchronous scripting. The
following example shows how to get first available value from two different
processes:
bb '
(defn async-command [& args]
(async/thread (apply shell/sh "bash" "-c" args)))
(-> (async/alts!! [(async-command "sleep 2 && echo process 1")
(async-command "sleep 1 && echo process 2")])
first :out str/trim println)'
process 2
Babashka is implemented using the Small Clojure
Interpreter. This means that a snippet or
script is not compiled to JVM bytecode, but executed form by form by a runtime
which implements a subset of Clojure. Babashka is compiled to a native binary
using GraalVM. It comes with a selection of
built-in namespaces and functions from Clojure and other useful libraries. The
data types (numbers, strings, persistent collections) are the
same. Multi-threading is supported (pmap
, future
).
Differences with Clojure:
A subset of Java classes are supported.
Only the clojure.core
, clojure.set
, clojure.string
and clojure.walk
namespaces are available from Clojure.
Interpretation comes with overhead. Therefore tight loops are likely slower than in Clojure on the JVM.
No support for unboxed types.
To work on Babashka itself make sure Git submodules are checked out.
$ git clone https://github.com/borkdude/babashka --recursive
To update later on:
$ git submodule update --recursive
You need Leiningen, and for building binaries you need GraalVM.
lein repl
will get you a standard REPL/nREPL connection. To work on tests use lein with-profiles +test repl
.
lein with-profiles +reflection run
Test on the JVM (for development):
script/test
Test the native version:
BABASHKA_TEST_ENV=native script/test
To build this project, set $GRAALVM_HOME
to the GraalVM distribution directory.
Then run:
script/compile
Here's a gallery of more useful examples. Do you have a useful example? PR welcome!
find . | grep conflict | bb -i '(doseq [f *input*] (.delete (io/file f)))'
#!/usr/bin/env bb
(as-> (io/file (or (first *command-line-args*) ".")) $
(file-seq $)
(map #(.length %) $)
(reduce + $)
(/ $ (* 1024 1024))
(println (str (int $) "M")))
$ dir-size
130M
$ dir-size ~/Dropbox/bin
233M
$ cat /tmp/test.txt
1 Hello
2 Clojure
3 Babashka
4 Goodbye
$ < /tmp/test.txt bb -io '(shuffle *input*)'
3 Babashka
2 Clojure
4 Goodbye
1 Hello
For converting JSON to EDN, see jet.
$ curl -s https://api.github.com/repos/borkdude/babashka/tags |
jet --from json --keywordize --to edn |
bb '(-> *input* first :name (subs 1))'
"0.0.4"
$ curl -s https://api.github.com/repos/borkdude/babashka/releases |
jet --from json --keywordize |
bb '(-> *input* first :assets)' |
bb '(some #(re-find #".*linux.*" (:browser_download_url %)) *input*)'
"https://github.com/borkdude/babashka/releases/download/v0.0.4/babashka-0.0.4-linux-amd64.zip"
Contributed by @plexus.
$ curl https://clojars.org/stats/all.edn |
bb -o '(for [[[group art] counts] *input*] (str (reduce + (vals counts)) " " group "/" art))' |
sort -rn |
less
14113842 clojure-complete/clojure-complete
9065525 clj-time/clj-time
8504122 cheshire/cheshire
...
See examples/tree.clj.
$ clojure -Sdeps '{:deps {org.clojure/tools.cli {:mvn/version "0.4.2"}}}' examples/tree.clj src
src
└── babashka
├── impl
│ ├── tools
│ │ └── cli.clj
...
$ examples/tree.clj src
src
└── babashka
├── impl
│ ├── tools
│ │ └── cli.clj
...
See examples/outdated.clj. Inspired by an idea from @seancorfield.
$ cat /tmp/deps.edn
{:deps {cheshire {:mvn/version "5.8.1"}
clj-http {:mvn/version "3.4.0"}}}
$ examples/outdated.clj /tmp/deps.edn
clj-http/clj-http can be upgraded from 3.4.0 to 3.10.0
cheshire/cheshire can be upgraded from 5.8.1 to 5.9.0
Contributed by @plexus.
$ cat project.clj |
sed -e 's/#=//g' -e 's/~@//g' -e 's/~//g' |
bb '(let [{:keys [dependencies source-paths resource-paths]} (apply hash-map (drop 3 *input*))]
{:paths (into source-paths resource-paths)
:deps (into {} (for [[d v] dependencies] [d {:mvn/version v}]))}) ' |
jet --pretty > deps.edn
See examples/pst.clj
Copyright © 2019 Michiel Borkent
Distributed under the EPL License. See LICENSE.
This project contains code from:
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