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Not babashka. Node.js babashka!?

Ad-hoc CLJS scripting on Node.js.

Try it out

Run npx nbb to run nbb on your own machine, or try it in a browser on Replit!

Goals and features

Nbb's main goal is to make it easy to get started with ad hoc CLJS scripting on Node.js.

Additional goals and features are:

Community

Requirements

Nbb requires Node.js v14 or newer.

Additionally, in the case of downloading Clojure dependencies, it requires the installation of babashka.

How does this tool work?

CLJS code is evaluated through SCI, the same interpreter that powers babashka. Because SCI works with advanced compilation, the bundle size, especially when combined with other dependencies, is smaller than what you get with self-hosted CLJS. That makes startup faster. The trade-off is that execution is less performant and that only a subset of CLJS is available (e.g. no deftype, yet).

Usage

Install nbb from NPM:

$ npm install nbb -g

Omit -g for a local install.

Try out an expression:

$ nbb -e '(+ 1 2 3)'
6

And then install some other NPM libraries to use in the script. E.g. with the following package.json:

{
  "dependencies": {
    "csv-parse": "^5.3.0",
    "shelljs": "^0.8.5",
    "term-size": "^3.0.2",
    "zx": "^7.1.1"
  }
}

Create a script which uses the NPM libraries:

(ns example
  (:require ["csv-parse/sync" :as csv]
            ["fs" :as fs]
            ["path" :as path]
            ["shelljs$default" :as sh]
            ["term-size$default" :as term-size]
            ["zx" :refer [$]]
            ["zx$fs" :as zxfs]
            [nbb.core :refer [*file*]]))

(prn (path/resolve "."))

(prn (term-size))

(println (count (str (fs/readFileSync *file*))))

(prn (sh/ls "."))

(prn (csv/parse "foo,bar"))

(prn (zxfs/existsSync *file*))

($ #js ["ls"])

Call the script:

$ nbb script.cljs
"/private/tmp/test-script"
#js {:columns 216, :rows 47}
510
#js ["node_modules" "package-lock.json" "package.json" "script.cljs"]
#js [#js ["foo" "bar"]]
true
$ ls
node_modules
package-lock.json
package.json
script.cljs

What does $default mean?

The :default foo syntax is shadow-cljs only and not supported by vanilla CLJS (and nbb doesn't support it either). The $default syntax is a recent addition to CLJS and should work in shadow-cljs too: this is why nbb supports it too.

See here for more info on that syntax.

Nbb implements :require via dynamic import (import() in JS). This is why you need to add $default to imports when you want to import the default object from a module.

Macros

Nbb has first class support for macros: you can define them right inside your .cljs file, like you are used to from JVM Clojure. Consider the plet macro to make working with promises more palatable:

(defmacro plet
  [bindings & body]
  (let [binding-pairs (reverse (partition 2 bindings))
        body (cons 'do body)]
    (reduce (fn [body [sym expr]]
              (let [expr (list '.resolve 'js/Promise expr)]
                (list '.then expr (list 'clojure.core/fn (vector sym)
                                        body))))
            body
            binding-pairs)))

Using this macro we can make async code look more like sync code. Consider this puppeteer example:

(-> (.launch puppeteer)
      (.then (fn [browser]
               (-> (.newPage browser)
                   (.then (fn [page]
                            (-> (.goto page "https://clojure.org")
                                (.then #(.screenshot page #js{:path "screenshot.png"}))
                                (.catch #(js/console.log %))
                                (.then #(.close browser)))))))))

Using plet this becomes:

(plet [browser (.launch puppeteer)
       page (.newPage browser)
       _ (.goto page "https://clojure.org")
       _ (-> (.screenshot page #js{:path "screenshot.png"})
             (.catch #(js/console.log %)))]
      (.close browser))

See the puppeteer example for the full code.

Since v0.0.36, nbb includes promesa which is a library to deal with promises. The above plet macro is similar to promesa.core/let.

Startup time

$ time nbb -e '(+ 1 2 3)'
6
nbb -e '(+ 1 2 3)'   0.17s  user 0.02s system 109% cpu 0.168 total

The baseline startup time for a script is about 170ms seconds on my laptop. When invoked via npx this adds another 300ms or so, so for faster startup, either use a globally installed nbb or use $(npm bin)/nbb script.cljs to bypass npx.

Libraries

See API documentation with a list of built-in Clojure libraries.

Dependencies

NPM dependencies

All NPM libraries loaded by a script are resolved relative to that script. When using the Reagent module, React is resolved in the same way as any other NPM library.

Clojure dependencies

Note: this feature relies on the presence of the babashka bb executable in the system's PATH.

To load dependencies from the Clojure ecosystem, you can create an nbb.edn:

{:deps {com.github.seancorfield/honeysql {:mvn/version "2.2.868"}}}

Similar to node_modules, nbb will unpack these dependencies in an .nbb directory and will load them from there.

Classpath

To load .cljs files from local paths or dependencies, you can use the --classpath argument. The current dir is added to the classpath automatically. So if there is a file foo/bar.cljs relative to your current dir, then you can load it via (:require [foo.bar :as fb]). Note that nbb uses the same naming conventions for namespaces and directories as other Clojure tools: foo-bar in the namespace name becomes foo_bar in the directory name.

Current file

The name of the file that is currently being executed is available via nbb.core/*file* or on the metadata of vars:

(ns foo
  (:require [nbb.core :refer [*file*]]))

(prn *file*) ;; "/private/tmp/foo.cljs"

(defn f [])
(prn (:file (meta #'f))) ;; "/private/tmp/foo.cljs"

In Python scripts there is a well-known pattern to check if the current file was the file invoked from the command line, or loaded from another file: the name == "main" pattern. In nbb this pattern can be implemented with:

(= nbb.core/*file* (nbb.core/invoked-file))

Reagent

Nbb includes reagent.core which will be lazily loaded when required. You can use this together with ink to create a TUI application:

$ npm install ink

ink-demo.cljs:

(ns ink-demo
  (:require ["ink" :refer [render Text]]
            [reagent.core :as r]))

(defonce state (r/atom 0))

(def count
  (js/setInterval
   #(if (< @state 10)
      (swap! state inc)
      (js/clearInterval count))
   500))

(defn hello []
  [:> Text {:color "green"} "Hello, world! " @state])

(render (r/as-element [hello]))
<img src="img/ink.gif"/>

Working with promises

Promesa

Working with callbacks and promises can become tedious. Since nbb v0.0.36 the promesa.core namespace is included with the let and do! macros. An example:

(ns prom
  (:require [promesa.core :as p]))

(defn sleep [ms]
  (js/Promise.
   (fn [resolve _]
     (js/setTimeout resolve ms))))

(defn do-stuff
  []
  (p/do!
   (println "Doing stuff which takes a while")
   (sleep 1000)
   1))

(p/let [a (do-stuff)
        b (inc a)
        c (do-stuff)
        d (+ b c)]
  (prn d))
$ nbb prom.cljs
Doing stuff which takes a while
Doing stuff which takes a while
3

Also see API docs.

REPL

In the REPL it can be convenient to bind the resolved value of promises to a var. You can do that like this:

(defmacro defp [binding expr]
  `(-> ~expr (.then (fn [val]
                     (def ~binding val)))))

(defp browser (.launch puppeteer #js {:headless false}))
(defp page (.newPage browser))
(.goto page "https://clojure.org")

Cljs-bean

Since nbb v0.1.0 cljs-bean is available.

See the example for an example.

Js-interop

Since nbb v0.0.75 applied-science/js-interop is available:

(ns example
  (:require [applied-science.js-interop :as j]))

(def o (j/lit {:a 1 :b 2 :c {:d 1}}))

(prn (j/select-keys o [:a :b])) ;; #js {:a 1, :b 2}
(prn (j/get-in o [:c :d])) ;; 1

Most of this library is supported in nbb, except the following:

See the example of what is currently supported.

<!-- ## Prismatic/schema --> <!-- Since nbb v0.5.110 [prismatic/schema](https://github.com/plumatic/schema) is --> <!-- available, if you install one additional dependency in your `package.json`: --> <!-- ``` clojure --> <!-- {"dependencies": --> <!-- {"nbb":"^0.5.110", --> <!-- "@babashka/nbb-prismatic-schema":"^0.5.110" --> <!-- } --> <!-- } --> <!-- ``` --> <!-- The dependency version of this library should always be the same as the version --> <!-- of nbb. --> <!-- After installation you can require `schema.core`: --> <!-- ``` clojure --> <!-- $ npx nbb -e "(require '[schema.core :as s]) (s/validate {:a s/Int} {:a 1})" --> <!-- {:a 1} --> <!-- ``` --> <!-- See [examples/prismatic-schema](examples/prismatic-schema) for an example that --> <!-- you can run directly. --> <!-- ## Metosin/malli --> <!-- Since nbb v0.5.115 [metosin/malli](https://github.com/metosin/malli) is --> <!-- available, if you install one additional dependency in your `package.json`: --> <!-- ``` clojure --> <!-- {"dependencies": --> <!-- {"nbb":"^0.5.115", --> <!-- "@babashka/nbb-metosin-malli":"^0.5.115" --> <!-- } --> <!-- } --> <!-- ``` --> <!-- After installation you can require `malli.core`: --> <!-- ``` clojure --> <!-- $ npx nbb --> <!-- Welcome to nbb v0.5.115! --> <!-- user=> (require '[malli.core :as m]) --> <!-- nil --> <!-- user=> (m/validate :string "foo") --> <!-- true --> <!-- ``` --> <!-- See [examples/metosin-malli](examples/metosin-malli) for an example that you --> <!-- can run directly. -->

Reader conditionals

Nbb supports the following reader conditional platform tags: :org.babashka/nbb and :cljs. Whichever is first takes priority:

#?(:org.babashka/nbb 1 :cljs 2) ;;=> 1
#?(:cljs 2 :org.babashka/nbb 1) ;;=> 2

Main function

It is possible to use the -main function as the software (script) start point when using the m parameter of nbb passing your software namespace.

(ns example)

(defn -main
  [& args]
  (prn "print in -main"))

Execute:

nbb -m example

Testing

See doc/testing.

REPL

Console REPL

To start a console REPL, simply run nbb.

Socket REPL

To start a socket server REPL, run:

$ nbb socket-repl :port 1337

REPL API

Nbb exposes the nbb.repl namespace to programmatically start a REPL. See API for more info. An example:

(ns example
  (:require [nbb.repl :as repl]
            [promesa.core :as p]))

(defn available-in-repl [] :yolo)

(p/do!
 (repl/repl)
 ;; type (available-in-repl) in the REPL and it will return :yolo
 (println "The end"))

The repl function returns a promise. The promesa.core/do! macro waits for the REPL to finish and after that "The end" is printed:

$ nbb example.cljs
example=> (available-in-repl)
:yolo
example=> The end

To launch a REPL from a Node.js script, you can use loadString or loadFile:

import { loadString } from 'nbb'
await loadString(`
(require '[nbb.repl :refer [repl]])
(repl)
`)
console.log('The end!')
$ node repl.mjs
user=> (+ 1 2 3)
6
user=> The end!

nREPL

The nREPL server probably still has rough edges. Please report issues here.

An nREPL server can be started with:

$ nbb nrepl-server :port 1337

After that you can connect using an nREPL client:

$ lein repl :connect 1337

and evaluate expressions.

Running nREPL in Docker container is supported with the optional :host argument.

$ nbb nrepl-server :port 1337 :host 0.0.0.0

Calva

In Calva connect to the REPL with:

CIDER

Use cider-jack-in-cljs as usual to start the nbb nREPL server from within an nbb project

or start an nREPL server from the command line with

$ nbb nrepl-server

and use cider-connect-cljs with a ClojureScript REPL type of nbb to connect to it.

CIDER prior to v1.6.0, needs the following workaround.

See also this article by Benjamin Scherdtner.

Vim Iced

See this tweet.

nREPL API

You can programmatically start and stop an nREPL server through:

(require '[nbb.nrepl-server :as nrepl])
(nrepl/start-server! {:port 1337})
(nrepl/stop-server!)

In a JavaScript project you can do the above through:

import { loadString } from 'nbb'

globalThis.inspectMyProcess = () => {
  return {version: process.version};
}

await loadString(`

(require '[nbb.nrepl-server :as nrepl])
(nrepl/start-server! {:port 1337})

`)

If you calling this from a CommonJS module, you can use dynamic import:

async function nREPL() {
  const { loadString } = await import('nbb');
  await loadString(`
  (require '[nbb.nrepl-server :as nrepl])
  (nrepl/start-server! {:port 1337})
`);
}

nREPL();

And then you can connect with an nREPL client:

$ node scratch.mjs &
nREPL server started on port 1337 on host 127.0.0.1 - nrepl://127.0.0.1:1337

$ lein repl :connect 1337
Connecting to nREPL at 127.0.0.1:1337
user=> js/process.argv
#js ["/Users/borkdude/.nvm/versions/node/v17.8.0/bin/node" "/Users/borkdude/dev/nbb/scratch.mjs"]
user=> (js/inspectMyProcess)
#js {:version "v17.8.0"}

Projects using nbb

The following projects are using nbb or are supporting it as a development platform:

Examples

Calling nbb from JavaScript

You can load nbb from JavaScript. Exposed functions are loadFile, loadString, addClassPath, getClassPath and printErrorReport.

An example:

Clojure:

(ns example)

(defn foo [] "Hello")

;; this JS object is the return value of loadFile:
#js {:foo foo}

JavaScript:

import { loadFile } from 'nbb'

// destructure JS object returned from .cljs file:
const { foo } = await loadFile('example.cljs')

// execute the foo function
foo();

Printing errors

Here's an example of how to print errors from the JS API:

import { loadString, printErrorReport } from 'nbb'

try {
  await loadString(`(assoc :foo :bar)`)
}
catch (e) {
  printErrorReport(e);
  process.exit(1);
}

Videos

Articles

Podcasts

Migrating to shadow-cljs

See this gist on how to convert an nbb script or project to shadow-cljs.

Publishing an nbb project to npm

See Publishing an nbb project to npm.

Creating a standalone executable with caxa

See Creating a standalone executable with caxa.

Nbb on AWS Lambda

See Nbb on AWS Lambda.

Nbb on Google Cloud Functions

See Nbb on Google Cloud Functions.

Develop

Nbb on fly.io

See Deploying an nbb app to fly.io.

Build

Prequisites:

To build:

Run bb tasks for more project-related tasks.

Credits

License

Copyright © 2021-2022 Michiel Borkent

Distributed under the EPL License. See LICENSE.