rebrowser

browser-side require() the node way

npm install rebrowser
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rebrowser

require('modules') in the browser

Use a node-style require() to organize your browser code and load modules installed by npm.

rebrowser will recursively analyze all the require() calls in your app in order to build a bundle you can serve up to the browser in a single <script> tag.

build status

rebrowser!

example

Whip up a file, main.js with some require()s in it. You can use relative paths like './foo' and '../lib/bar' or module paths like 'gamma' that will search node_modules/ using node's module lookup algorithm.

var foo = require('./foo');
var bar = require('../lib/bar');
var gamma = require('gamma');

var elem = document.getElementById('result');
var x = foo(100) + bar('baz');
elem.textContent = gamma(x);

Now just use the rebrowser command to build a bundle starting at main.js:

$ rebrowser main.js > bundle.js

All of the modules that main.js needs are included in the bundle.js from a recursive walk of the require() graph using required.

To use this bundle, just toss a <script src="bundle.js"></script> into your html!

external requires

You can just as easily create bundle that will export a require() function so you can require() modules from another script tag. Here we'll create a bundle.js with the through and duplexer modules.

$ rebrowser -r through -r duplexer > bundle.js

Then in your page you can do:

<script src="bundle.js"></script>
<script>
  var through = require('through');
  var duplexer = require('duplexer');
  /* ... */
</script>

multiple bundles

If rebrowser finds a require function already defined in the page scope, it will fall back to that function if it didn't find any matches in its own set of bundled modules.

In this way you can use rebrowser to split up bundles among multiple pages to get the benefit of caching for shared, infrequently-changing modules, while still being able to use require(). Just use a combination of --external and --require to factor out common dependencies.

For example, if a website with 2 pages, beep.js:

var robot = require('./robot');
console.log(robot('beep'));

and boop.js:

var robot = require('./robot');
console.log(robot('boop'));

both depend on robot.js:

module.exports = function (s) { return s.toUpperCase() + '!' };
$ rebrowser -r ./robot > static/common.js
$ rebrowser -x ./robot.js beep.js > static/beep.js
$ rebrowser -x ./robot.js boop.js > static/boop.js

Then on the beep page you can have:

<script src="common.js"></script>
<script src="beep.js"></script>

while the boop page can have:

<script src="common.js"></script>
<script src="boop.js"></script>

usage

Usage: rebrowser [entry files] {OPTIONS}

Standard Options:

    --outfile, -o  Write the rebrowser bundle to this file.
                   If unspecified, rebrowser prints to stdout.

    --require, -r  A module name or file to bundle.require()
                   Optionally use a colon separator to set the target.

      --entry, -e  An entry point of your app

     --ignore, -i  Omit a file from the output bundle.

   --external, -x  Reference a file from another bundle.

  --transform, -t  Use a transform module on top-level files.

    --command, -c  Use a transform command on top-level files.

  --standalone -s  Generate a UMD bundle that works with other module systems
                   and falls back to exporting on a window global.

       --debug -d  Enable source maps that allow you to debug your files
                   separately.

       --help, -h  Show this message

For advanced options, type `rebrowser help advanced`.

Specify a parameter.
Advanced Options:

  --insert-globals, --ig, --fast    [default: false]

    Skip detection and always insert definitions for process, global,
    __filename, and __dirname.

    benefit: faster builds
    cost: extra bytes

  --detect-globals, --dg            [default: true]

    Detect the presence of process, global, __filename, and __dirname and define
    these values when present.

    benefit: npm modules more likely to work
    cost: slower builds

  --ignore-missing, --im            [default: false]

    Ignore `require()` statements that don't resolve to anything.

compatibility

Many npm modules that don't do IO will just work after being browserified. Others take more work.

Many node built-in modules have been wrapped to work in the browser, but only when you explicitly require() or use their functionality.

When you require() any of these modules, you will get a browser-specific shim:

  • events
  • stream
  • path
  • assert
  • url
  • util
  • querystring
  • buffer
  • buffer_ieee754
  • console
  • vm
  • http
  • crypto
  • zlib

Additionally if you use any of these variables, they will be defined in the bundled output in a browser-appropriate way:

  • process
  • Buffer
  • global - top-level scope object (window)
  • __filename - file path of the currently executing file
  • __dirname - directory path of the currently executing file

methods

var rebrowser = require('rebrowser')

var b = rebrowser(files=[])

Create a rebrowser instance b from the entry main files. files can be an array of files or a single file.

b.add(file)

Add an entry file from file that will be executed when the bundle loads.

b.require(file[, opts])

Make file available from outside the bundle with require(file).

The file param is anything that can be resolved by require.resolve().

Use the expose property of opts to specify a custom dependency name. require('./vendor/angular/angular.js', {expose: 'angular'}) enables require('angular')

b.bundle(opts, cb)

Bundle the files and their dependencies into a single javascript file.

Return a readable stream with the javascript file contents or optionally specify a cb(err, src) to get the buffered results.

When opts.insertGlobals is true, always insert process, global, __filename, and __dirname without analyzing the AST for faster builds but larger output bundles. Default false.

When opts.detectGlobals is true, scan all files for process, global, __filename, and __dirname, defining as necessary. With this option npm modules are more likely to work but bundling takes longer. Default true.

When opts.debug is true, add a source map inline to the end of the bundle. This makes debugging easier because you can see all the original files if you are in a modern enough browser.

When opts.standalone is a non-empty string, a standalone module is created with that name and a umd wrapper.

b.external(file)

Prevent file from being loaded into the current bundle, instead referencing from another bundle.

b.ignore(file)

Prevent the module name or file at file from showing up in the output bundle.

b.transform(tr)

Transform source code before parsing it for require() calls with the transform function or module name tr.

If tr is a function, it will be called with tr(file) and it should return a through-stream that takes the raw file contents and produces the transformed source.

If tr is a string, it should be a module name or file path of a transform module with a signature of:

var through = require('through');
module.exports = function (file) { return through() };

You don't need to necessarily use the through module, this is just a simple example.

Here's how you might compile coffee script on the fly using .transform():

var coffee = require('coffee-script');
var through = require('through');

b.transform(function (file) {
    var data = '';
    return through(write, end);

    function write (buf) { data += buf }
    function end () {
        this.queue(coffee.compile(data));
        this.queue(null);
    }
});

Note that on the command-line with the -c flag you can just do:

$ rebrowser -c 'coffee -sc' main.coffee > bundle.js

Or better still, use the coffeeify module:

$ npm install coffeeify
$ rebrowser -t coffeeify main.coffee > bundle.js

package.json

rebrowser uses the package.json in its module resolution algorithm just like node, but there is a special "browser" field you can set to override file resolution for browser-specific versions.

You can specify source transforms in the package.json in the rebrowser.transforms field. There is more information about how source transforms work in package.json on the module-deps readme.

events

b.on('file', function (file, id, parent) {})

When a file is resolved for the bundle, the bundle emits a 'file' event with the full file path, the id string passed to require(), and the parent object used by browser-resolve.

You could use the file event to implement a file watcher to regenerate bundles when files change.

list of source transforms

Here is a list of known source transforms:

  • brfs - inline fs.readFileSync() calls with file contents

  • coffeeify - compile .coffee files to javascript automatically

  • caching-coffeeify - coffeeify version that caches previously compiled files to optimize the compilation step

  • hbsfy - precompile handlebars templates to javascript functions automatically

  • rfileify - inline rfile(path) calls with file contents (also supports ruglify and any other rfile derivatives)

  • liveify - compile livescript files to javascript automatically

  • es6ify - compile ES6 files to ES5 javascript automatically

  • turn - minimal modules for a hypothetical es6 with lua's return

third-party tools

If you are using express or connect, you can use enchilada or rebrowser-middleware to host your bundles as middleware.

If you want a standalone web server for development that will create bundles on demand, check out browservefy.

install

With npm do:

npm install -g rebrowser

license

MIT

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