codepainter

A JavaScript beautifier that can both infer coding style and transform code to reflect that style. You can also set style preferences explicitly in a variety of ways.

npm install codepainter
106 downloads in the last week
215 downloads in the last month

Code Painter

Build Status Dependency Status NPM version Views

NPM

Code Painter is a JavaScript beautifier that can transform JavaScript files into the formatting style of your choice. Style settings can be supplied via predefined styles, a custom JSON file, command line settings, EditorConfig settings or it can even be inferred from one or more sample files. For example, you could provide a code snippet from the same project with which the new code is intended to integrate.

It uses the excellent Esprima parser by Ariya Hidayat and his contributors — thanks!

The name is inspired by Word's Format Painter, which does a similar job for rich text.

Requirements

Code Painter requires Node.js version 0.10.6 or above.

Installation

$ npm install codepainter

To access the command globally, do a global install:

$ npm install -g codepainter

*nix users might also have to add the following to their .bashrc file:

PATH=$PATH:/usr/local/share/npm/bin

CLI Usage

You can see the usage in the CLI directly by typing codepaint or codepaint --help.

$ codepaint --help

  Code Painter beautifies JavaScript.

  Usage: codepaint [options] <command>

  Commands:

    infer [options] <globs>...  Infer formatting style from file(s)
    xform [options] <globs>...  Transform file(s) to specified style

  Options:

    -h, --help     output help information
    -V, --version  output version information


$ codepaint infer --help

  Infer formatting style from file(s)

  Usage: infer [options] <globs>...

  Options:

    -h, --help     output help information
    -d, --details  give a detailed report with trend scores

  Examples:

    $ codepaint infer "**/*.js"
    $ codepaint infer "**/*view.js" "**/*model.js"
    $ codepaint infer %s "**/*.js" -m
    $ codepaint infer %s "**/*.js" -e inferred.json


$ codepaint xform --help

  Transform file(s) to specified formatting style

  Usage: xform [options] <globs>...

  Options:

    -h, --help                 output help information
    -i, --infer <glob>         code sample(s) to infer
    -p, --predef <name>        cascade predefined style (e.g., idiomatic)
    -j, --json <path>          cascade JSON style over predef style
    -s, --style <key>=<value>  cascade explicit style over JSON
    -e, --editor-config        cascade EditorConfig style over all others

  Examples:

    $ codepaint xform "**/*.js"
    $ codepaint xform "**/*view.js" "**/*model.js"
    $ codepaint xform %s "**/*.js" -i sample.js
    $ codepaint xform %s "**/*.js" -p idiomatic
    $ codepaint xform %s "**/*.js" -j custom.json
    $ codepaint xform %s "**/*.js" -s quote_type=null
    $ codepaint xform %s "**/*.js" -s indent_style=space -s indent_size=4
    $ codepaint xform %s "**/*.js" -e

Library Usage

var codepaint = require('codepainter');

Library usage is intended to be every bit the same as CLI usage, so you can expect the same options and arguments that the CLI requires.

.infer(< path|glob|globs|ReadableStream >[,options][,callback])

Example usage:

codepaint.infer('**/**.js', {details: true}, function(inferredStyle) {
    console.log(inferredStyle);
});

.xform(< path|glob|globs|ReadableStream >[,options][,callback])

Example usage:

codepaint.xform('input.js', {indent_size: 4}, function(err, xformed, skipped, errored){
    if (err) {
        throw err;
    }
    console.log('transformed:', xformed);
    console.log('skipped:', skipped);
    console.log('errored:', errored);
});

The following example infers formatting style from sample.js and uses that inferred style to transform all .js files under the current directory.

codepaint.infer('sample.js', function(inferredStyle) {
    codepainter.xform('**/**.js', {style: inferredStyle});
});

'sample.js' could also be an array or any readable stream. transform is an alias for the xform method. You can use either one.

Great, so that's all nice and simple, but maybe you want to do something with the output. We start by creating an instance of the Transformer class.

var Transformer = require('codepainter').Transformer;
var transformer = new Transformer();

Now, we can listen to any of the following events:

cascade

Every time one style cascades over another.

transformer.on('cascade', cascade);
function cascade(styleBefore, styleToMerge, styleType) {
    // code here
}

transform

Every time a file is transformed.

transformer.on('transform', function(transformed, path) {
    // code here
}

error

transformer.on('error', function(err, inputPath) {
    // code here
}

end

When all transformations have taken place.

transformer.on('end', function(err, transformed, skipped, errored) {
    // code here
}

Of course, none of these events will fire if you don't perform the transform:

transformer.transform(globs, options);

CLI Examples

$ codepaint infer "**/*.js"

Infers formatting style from all .js files under the current directory into a single JSON object, which you can pipe out to another file if you want. It can then be used in a transformation (below).

$ codepaint xform "**/*.js"

This doesn't transform any files, but it does show you how many files would be affected by the glob you've provided. Globs absolutely must be in quotes or you will experience unexpected behavior!

$ codepaint xform -i infer.js "**/*.js"

Transforms all .js files under the current directory with the formatting style inferred from infer.js

$ codepaint xform -p idiomatic "**/*.js"

Transforms all .js files under the current directory with a Code Painter pre-defined style. In this case, Idiomatic. The only other pre-defined styles available at this time are mediawiki and hautelook.

$ codepaint xform -j custom.json "**/*.js"

Transforms all .js files under the current directory with a custom style in JSON format.

$ codepaint xform -s indent_style=space -s indent_size=4 "**/*.js"

Transforms all .js files under the current directory with 2 settings: indent_style=space and indent_size=4. You can specify as many settings as you want and you can set values to null to disable them.

$ codepaint xform -e "**/*.js"

Transforms all .js files under the current directory with the EditorConfig settings defined for each individual file.

Refer to EditorConfig Core Installation for installation instructions and EditorConfig for more information, including how to define and use .editorconfig files.

$ codepaint xform -i infer.js -p idiomatic -j custom.json
-s end_of_line=null -e  "**/*.js"

As you can see, you can use as many options as you want. Code Painter will cascade your styles and report how the cascade has been performed, like so:

  Inferred style:
   + indent_style = tab
   + insert_final_newline = true
   + quote_type = auto
   + space_after_anonymous_functions = false
   + space_after_control_statements = false
   + spaces_around_operators = false
   + trim_trailing_whitespace = false
   + spaces_in_brackets = false

  hautelook style:
   * indent_style = space
   + indent_size = 4
   * trim_trailing_whitespace = true
   + end_of_line = lf
   = insert_final_newline = true
   = quote_type = auto
   * spaces_around_operators = true
   = space_after_control_statements = true
   = space_after_anonymous_functions = false
   * spaces_in_brackets = false

  Supplied JSON file:
   * space_after_control_statements = true
   = indent_style = space
   * indent_size = 3

  Inline styles:
   x end_of_line = null

  Editor Config:
   + applied on a file-by-file basis

  ...........................

  REPORT: 27 files transformed

Supported Style Properties

codepaint: false

Tells CodePainter to skip the file (no formatting). This property really only makes sense if you are using the --editor-config CLI option. This allows you to, for example, skip a vendor scripts directory.

EditorConfig properties

indent_style, indent_size, end_of_line, trim_trailing_whitespace and insert_final_newline.

Refer to EditorConfig's documentation for more information.

quote_type: single, double, auto

Specifies what kind of quoting you would like to use for string literals:

console.log("Hello world!"); // becomes console.log('Hello world!');

Adds proper escaping when necessary, obviously.

console.log('Foo "Bar" Baz'); // becomes console.log("Foo \"Bar\" Baz");

The auto setting infers the quoting with a precedence toward single mode.

console.log("Foo \"Bar\" Baz"); // becomes console.log('Foo "Bar" Baz');
console.log('Foo \'Bar\' Baz'); // becomes console.log("Foo 'Bar' Baz");

space_after_control_statements: true, false

Specifies whether or not there should be a space between if/for/while and the following open paren:

If true:

if(x === 4) {} // becomes if (x === 4) {}

If false:

while (foo()) {} // becomes while(foo()) {}

space_after_anonymous_functions: true, false

Specifies whether or not there should be a space between the function keyword and the following parens in anonymous functions:

function(x) {} // becomes function (x) {}

spaces_around_operators: true, false, hybrid

Specifies whether or not there should be spaces around operators such as +,=,+=,>=,!==.

x = 4; // becomes x=4;
a>=b; // becomes a >= b;
a>>2; // becomes a >> 2;

Unary operators !,~,+,- are an exception to the rule; thus, no spaces are added. Also, any non-conditional : operators do not receive a space (i.e., the switch...case operator and property identifiers):

switch (someVar) {
    case 'foo' : // becomes case 'foo':
        var x = {foo : 'bar'}; // becomes {foo: 'bar'}
        break;
}

Hybrid mode is mostly like the true setting, except it behaves as false on operators *,/,%:

var x = 4 * 2 + 1 / 7; // becomes var x = 4*2 + 1/7;

spaces_in_brackets: true, false, hybrid

Specifies whether or not there should be spaces inside brackets, which includes (),[],{}. Empty pairs of brackets will always be shortened.

If true:

if (x === 4) {} // becomes if ( x === 4 ) {}

If false:

if ( x === 4 ) {} // becomes if (x === 4)

The hybrid setting mostly reflects Idiomatic style. Refer to Idiomatic Style Manifesto.

Pipes and Redirects

On a unix command-line, you can transform a file from the stdin stream:

$ codepaint xform -s indent_size=2 < input.js

The stdout stream works a bit differently. Since Code Painter can transform multiple files via glob syntax, it wouldn't make sense to output the transformations of all those files to a single stream. Instead, only if you are using stdin as input and no -o, --output option is provided will Code Painter send the transformation to the stdout stream:

$ codepaint xform -s indent_size=2 < input.js > output.js

Piping is supported as well:

$ codepaint xform -s indent_size=2 < input.js | othercommand`

Git Clean and Smudge Filters

Because Code Painter supports stdin and stdout streams, as explained above, Git "clean" and "smudge" filters can be used as well.

CAUTION: My personal experience has shown inconsistent results, so use with caution! Also, please contact me if you figure out how to do this without any hiccups.

First, change your .gitattributes file to use your new filter. We'll call it "codepaint".

*.js   filter=codepaint

Then, tell Git what the "codepaint" filter does. First, we will convert code to tabs upon checkout with the "smudge" filter:

$ git config filter.codepaint.smudge "codepaint xform -s indent_style=tab"

Then, upon staging of files with the Git "clean" filter, the style is restored to spaces and cleaned to reflect any other style preferences you may have set:

$ git config filter.codepaint.clean "codepaint xform -p style.json"

This allows you to work in the indentation of your preference without stepping on anyone's toes and checking in inconsistent indentation. Or maybe you have your own preference for spaces around operators? Smudge it to your preference and clean it to your company's formatting style.

WARNING: Git "clean" and "smudge" filters are bypassed with GitHub for Windows.

Refer to Git's documentation for more information on Git "smudge" and "clean" filters.

It is highly recommended that you use the EditorConfig approach to painting your code. To do so, do the following:

Place an .editorconfig file at your project root. Refer to this project's .editorconfig file for a point of reference as to how this might look. You can also scatter .editorconfig files elsewhere throughout your project to prevent Code Painter from doing any transformations (e.g., your vendor scripts folders). In this case, the .editorconfig file would simply read: codepaint = false.

Specify Code Painter in your devDependencies section of your package.json:

{
    "devDependencies": {
        "codepainter": "~0.3.15"
    }
}

Define a codepaint script in the scripts section of your package.json:

{
    "scripts": {
        "codepaint": "node node_modules/codepainter/bin/codepaint xform -e **/**.js"
    }
}

If you have Code Painter installed globally, the command is as simple as:

{
    "scripts": {
        "codepaint": "codepaint xform -e **/**.js"
    }
}

But Code Painter wouldn't install globally by default, so the first approach is the recommended one. Then, you can run Code Painter on your entire project, consistently, with the following command:

$ npm run-script codepaint

You could run codepaint manually every time you want to do it, but you might find this next .bashrc shortcut more useful. The idea is to run this gc alias to a newly-defined codepaint_git_commit function. This, you do instead of running git commit. The caveat is that you need to stage your changes with git add before doing so. This is because the command runs codepaint only on staged .js files. Aside from this caveat, you can commit things mostly the same as you were used to before. Now, gc can paint your code before a commit and bail-out of the commit if there are issues with the process (e.g., JavaScript parse errors). The idea of formatting code before a commit is definitely controversial, but if you choose to do so anyway, here's the neat trick to put in your .bashrc file:

# Example usage: gc "initial commit"
alias gc=codepaint_git_commit
codepaint_git_commit() {
    # 1. Gets a list of .js files in git staging and sends the list to CodePainter.
    # 2. CodePainter with the -e flag applies rules defined in your EditorConfig file(s).
    # 3. After CodePainter is done, your args are passed to the `git commit` command.
    jsfiles=$(git diff --name-only --cached | egrep '\.js$')
    if [ $jsfiles ]; then
        ./node_modules/codepainter/bin/codepaint xform -e $jsfiles
    fi
    git commit -m "$@"
}

You could also compare Code Painter's output with the original file on a Git pre-commit hook and reject the commit if the files don't match. Let's be real though. This would happen almost every time you commit and it would be a royal pain in your workflow.

There are so many ways you could use Code Painter. How do you prefer to use Code Painter? Feel free to contact me, Jed, with tips or suggestions. See package.json for contact information).

Enforcing

Code Painter can be used to enforce a formatting style in a number of creative ways. To fail Travis CI if code does not comply with your organization's style guide, the process would work something like this:

  1. Run Code Painter on the code base.
  2. Fail Travis if any file changes are detected. This encourages developers to run Code Painter before pushing code.

Running Code Painter with Travis is as simple as adding the command to the before_script section of your .travis.yml file:

before_script:
  - node node_modules/codepainter/bin/codepaint xform -e "**/**.js"

Notice I didn't use the command npm run-script codepaint. This is because there were issues with the double-quoted glob being processed. If you find a way around this, please let me know.

Next, you need to create a node script that exits the node process with a non-zero code if any changes are detected. This, we do with git diff:

var clc = require('cli-color');
var spawn = require('child_process').spawn;
var git = spawn('git', ['diff', '--name-only']);

git.stdout.setEncoding('utf8');
git.stdout.on('data', exitWithErrorIfFilesHaveChanged);

function exitWithErrorIfFilesHaveChanged(data) {
    console.log();
    console.log(clc.red('Error: The following files do not conform to the CompanyX style guide:'));
    console.log(data);
    process.exit(1);
}

Finally, you can add this script to your .travis.yml file in the script section:

script:
  - node gitdiff.js

Violä! Travis should now fail if code does not comply with your organization's style guide.

License

Released under the MIT license.

Bitdeli Badge

npm loves you