gulp-component-assembler

Always reference the documents on the git repo since they are updated more often then the NPM package website. I update NPM when there is a code change. I might change documentation without a code change and, at that time, I would not update the version number or NPM release.

gulp-component-assembler is a gulp plug-in that assembles JavaScript components. The source for the components are a combination of JavaScript files, HTML Templates and Localization strings.

gulp-component-assembler uses the file assembly.json to define the list of files to assemble into the component output file. The filename of the component will be the name of the folder that contains the assembly.json file. The extension of the component file .js.

Examples: For a folder named widget the component output file will be widget.js. For a folder named MyControl the component output file will be MyControl.js. The case of the component filename matches the case of the folder name.

Output file location

Prior to version 2.0.0 the component output file would be placed in a folder of the same name as the output file itself.

As of version 2.0.0 the additional folder name is removed and component output file is placed one folder higher than it had been in previous versions.

Example For the path .../testing/widget/assembly.json the old, version 1.x, component output file would have been _outputPath_/widget/widget.js and the new, version 2.0, component output file will be _outputPath_/widget.js

With version 2.x you can continue to use the old output path by including the useOldDest option in the assemble() command. See the useOldDest option below.

The assembled contents of the component file are wrapped inside an Immediately-Invoked Function Expression (IIFE). This helps prevent anything within the component from having a negative effect, like name collisions, with any other script files loaded on the page.

Install

npm install gulp-component-assembler --save-dev

or

npm install -g gulp-component-assembler

Pull Requests and Issues

Please submit pull requests and issues. I want to make this into a tool that is useful to everyone. I will do my best to review and take care of PRs and issues quickly. If you have suggestions, I would love to hear them.

PRs for Third-Party Plug-ins

gulp-component-assembler supports plug-ins to be run at various times during the assembly process. Plug-ins allow special manipulation of the component output file. If you create a plug-in, please either create a PR on the plug-in page or email me your info. I will add it to the list of third-party plug-ins in the PLUGINLIST.md file

Usage of gulp-component-assembler

The primary usage of the gulp-component-assembler is to assemble the component output files. This is done when gulp calls the assemble() function. This function uses the information in the assembly.json file to assemble the component output file. The source files does not need to be called assembly.json, but it must be a JSON file and it must conform to the correct structure of the assembly.json file. For simplicity, throughout all documentation, I will call this file assembly.json

You can also call the function loadPlugin() to load plug-ins into the assembly process. Plug-ins, how to use them and how to write them are defined in the plug-ins README.md file

Example of the assemble() function

Here is an example of how to use the assemble() function:

var gulp = require('gulp');
var compasm = require('gulp-component-assembler');
 
gulp.task('assemble', function() {
  return gulp.src('./assembly.json')
    .pipe(compasm.assemble())
    .pipe(gulp.dest('./dist'))
});

Watching assembly files

gulp-component-assembler provides it's own watch function that should be used in place of gulp.watch. Pass the function the same parameters you would to gulp.watch. The watch function only works in Gulp 4.

gulp.task('watch', function() {
    compasm.watch('./assembly.json', gulp.series('assemble'));
});

Options for assemble() function

The assemble() function takes an optional object which contains any combination of the options defined below. These options allow the user to customize the assembly process and the output file for the component. The options are defined in the object passed to the assemble() function. Like this:

compasm.assemble({
  "defaultLocale": "en",
  "exposeLang": true
})

List of Options

Here is the list of options and their description and usage:

Option names are case sensitive. defaultLocale is correct but DefaultLocale is not.

Example using options

Below is an example of assembling a component with the following options set:

• Set the default language to French
• Remove extra white space from templates
• Use the external version of the helper library code
• And, by using gulp-uglify, the code will be saved in both a non-minified and minified version file.

var gulp   = require('gulp');
var uglify  = require('gulp-uglify');
var rename  = require('gulp-rename');
var compasm = require('gulp-component-assembler');
 
gulp.task('assemble', function() {
  return gulp.src('./assembly.json')
    .pipe(compasm.assemble({
          "defaultLocale": 'fr',
          "minTemplateWS": true,
          "useExternalLib": true
        })
    .pipe(gulp.dest('./dist'))
    .pipe(uglify())
    .pipe(rename(function (path) {path.basename += "-min";}))
    .pipe(gulp.dest('./dist'))
});

The option iifeParams is used to provide the values that are accessible within the IIFE function and the values that are passed into the IIFE.

The last parameter in the IIFE function is always undefined which is automatically added to the function.

To set these values you create an object that has both a use and a pass property like this:

"iifeParams": {
  "use": "window, document, $",
  "pass": "window, window.document, window.jQuery"
}

This will produce the following in the component output file:

(function(window, document, $, undefined) {
 
  // Your code would be here.
 
})(window, window.documet, window.jQuery);

When supportTransKeys is on the gulp-component-assembler auto generates two special locales, ke and zz. When these locales are used the strings returned in the lang object include the key names instead of the translated strings. More information about this is found in the section Accessing locale strings in your JavaScript below.

If the option useStrict is set to true then the expression "use strict"; is added just inside the IIFE function like this:

(function(window, document, undefined) {
  "use strict";
 
  // Your code here
 
})(window, window.document);

Usage of assembly.json file

The assembly.json file defines a list of JavaScript source files, HTML template files and sub-assemblies to be included in the component output file. It can also define special locations for locale string files.

assembly.json file format

The assembly.json files supports the following properties: files, templates, localePath, localFileName, and subs.

The minimum assembly.json file must contain the files array, which defines the JavaScript source files to include in the assembled component.

{
  "files": [
    "file1.js",
    "src/file2.js"
  ]
}

The built-in properties of the assembly.json file:

Note: Additional properties can be placed in the assembly.json file to be used by plug-ins. All additional properties will be ignored by the main assemble() function. **But, since we have no idea what features might be added we also don't know what possible properties may be used by the assemble() function in the future. For more information please see the section "Your own properties in the assembly.json file" in the plug-ins README.md file

Property: files

The files array property is a globby list of JavaScript source files that are to be included in this component. All file names are relative to the location of the assembly.json file.

Each of these files are loaded, in the order provided, and appended into the component file. No modifications are made to these files.

All of the code from the files listed in the files array is wrapped inside an IIFE. This IIFE is to prevent name collisions between this component and all other JavaScript that you will load. So if you want anything accessible outside of the IIFE then you must provide the code to make it accessible. The simplest, but not best solution, is to create global variable. In the browser this is done by attaching parameters to the window object. For example:

var localVar = "This will be a private variable, protected inside an IIFE";
 
window.globalVar = localVar; // This is now accessible throughout the app/web page

I should warn about making everything public and a member of the window object. This can lead to complicated code and hinder reusability. It is better to use some form of a module loading system.

Depending on your environment you may expose properties, classes and functions through things like module.exports, define or an existing global object or function. But I leave that to you to research and find the best mechanism for you and your team.

Property: templates

the templates array property is a globby list of template files. gulp-component-assembler will load all of these files and convert them into template strings within the assembled component.

If you do not provide a temlates entry in the assembly.json then gulp-component-assembler will attempt to load the default templates: "./templates/*.html"

Each file is converted to a string and appended to the templateList object in the output component file.

The templates are loaded by your script by accessing the templateList object, or by calling the loadTemplate() function or the loadTemplateStr() function.

If there are both templates and locale files then calling getTemplate() or getTemplateStr() will auto-populate translations in the data returned from those functions.

Template files allow you to wrap HTML content into your assembly. These templates can be used by your code to create DOM on the fly.

Angular directives often need templates. Using a provided template system from gulp-component-assembler allows the developer to create the templates as stand-alone HTML files and import them into the directives.

TODO: Provide more information here

• Angular example
• jQuery example
• Raw JS example
• Other examples

Property: subs

One or more assembly.json files can be assembled and incorporated as sub-assemblies in the component output file by using the subs property to define which assemblies are to be included.

subs is a globby array of assembly.json files that are assembled into the component output file. Again, the name of these JSON files does not need to be assembly.json, but they must conform with a correctly formatted assembly.json file.

Each assembly will be placed in it's own IIFE function and they each have their own templates and locale files. This also provides a unique name-space for each sub-assembly. But this prevents direct access of values and functions contained in the other sub-assemblies without making them available through the global scope or some other mechanism.

If the assembly.json file in the myComponent folder looked like this:

{
  "subs": [
    "**/assembly.json"
  ]
}

And the file structure looked like this:

myComponent
│
├── assembly.json
├── sub1
│   │
│   ├── assembly.json
│   └── file.js
│
├── sub2
│   │
│   ├── assembly.json
│   └── file.js
│
└── thingy
    │
    ├── item1
    │   │
    │   ├── assembly.json
    │   └── file.js
    │
    └── item2
        │
        ├── assembly.json
        └── file.js

Then the component output file myComponent.js would include the contents of the sub-assemblies sub1.js, sub2.js, thingy/item1.js and thingy/item2.js.

Property: localeFileName

If the user does not provide a value for localeFileName then gulp-component-assembler attempts to use the value of 'strings'. If files using that value do not exist then it attempts to use the value of the containing folder.

One locale file is needed per language. At this time, 2015-08-03, we only support the two letter (ISO-639-1) locale names, like 'en', 'fr', 'de', etc.

TODO: Provide more information here

A value of 'localeFile' would indicate files named like: localeFile_en.json, localeFile_fr.json, localeFile_zh.json etc.

Note: If the user sets the localeFileName value in the assembly.json file then the default value is not used.

Locale File format

Locale files are JSON files. They contain a single object that uses keys and values.

The default

• strings_en.json:

{
  "BUTTON_OK": "OK",
  "BUTTON_CANCEL": "Cancel",
  "BUTTON_CLOSE": "Close",
  "NO_CHANGES": "No Recent Changes"
}

• strings_fr.json:

{
  "BUTTON_OK": "OK",
  "BUTTON_CANCEL": "Annuler",
  "BUTTON_CLOSE": "Fermer",
  "NO_CHANGES": "Aucunes modifications récentes"
}

• strings_es.json:

{
  "BUTTON_OK": "OK",
  "BUTTON_CANCEL": "Cancelar",
  "BUTTON_CLOSE": "Cerrar",
  "NO_CHANGES": "No hay cambios recientes"
}

How to select the locale to be used

To set the selected locale in the browser you would set the global window.locale to the locale you want to use.

The value for window.locale must be set before loading any component output file.

TODO: Provide more information here

Accessing locale strings in your JavaScript

Within a component output file, each assembly and sub-assembly would contain it's own locale strings. These are accessed through the property lang. In the examples JSON files above you would access the strings as lang.BUTTON_OK, lang.BUTTON_CANCEL, lang.BUTTON_CLOSE and lang.NO_CHANGES.

TODO: Provide more information here

Accessing locale strings in your templates

Within a template file you access the locale strings by wrapping them within curly braces.

<div>
  <div>{NO_CHANGES}</div>
  <button>{BUTTON_OK}</button>
</div>

TODO: Provide more information here

Plug-ins

gulp-component-assembler support plug-ins. I have provided several and you can write their own.

For a list of available plug-ins go to the PLUGINLIST.md file.

For information on how to create your own plug-ins go to the plug-ins README.md file.

License

MIT - License File

Update History

Update History File