@dojo/cli-build-webpack
The official dojo 2 build command.
WARNING This is beta software. While we do not anticipate significant changes to the API at this stage, we may feel the need to do so. This is not yet production ready, so you should use at your own risk.
Usage
To use @dojo/cli-build
in a single project, install the package:
npm install @dojo/cli-build-webpack
to use @dojo/cli-build-webpack
in every project, install the project globally:
npm install -g @dojo/cli-build-webpack
Features
@dojo/cli-build-webpack
is an optional command for the @dojo/cli
.
Building
To build a Dojo 2 application for publishing:
dojo build webpack
This command will output the built files to the dist
directory. After running this command, you can open the dist/index.html
file to see your application.
You can also build in watch mode, which will automatically rebuild your application when it changes:
dojo build webpack -w
When using watch mode, you can specify a port, or port range, to use when determining which port to serve your application on.
dojo build webpack -w --port=8080
dojo build webpack -w --port=8080,8181
dojo build webpack -w --port=9010:9000
The watch server will use the first unused port in the list you specified. Default port range is 9990-9999.
@dojo/cli-build-webpack
can be customized further. Use the help option to see everything you can do:
dojo build webpack --help
Building a custom element
@dojo/cli-build-webpack
can also build custom web elements as per the custom web v1 specification. Custom elements are built by providing the name of a custom element descriptor.
dojo build webpack --element=src/path/to/createTheSpecialElement.ts
This will output a dist/the-special
directory containing:
the-special.js
- JavaScript file containing code specific to the TheSpecial
widget.widget-core.js
- JavaScript file containing shared widget code. This is separated to allow for better caching by the browser.the-special.css
- CSS relating to the TheSpecial
widget.the-special.html
- HTML import file that will import all the scripts and styles needed to use the element.
If the source file does not follow the pattern create[custom element]Element
, @dojo/cli-build-webpack
cannot determine what the name of the custom element should be. In this case, you can specify the --elementPrefix
option to explicitly name the element.
dojo build webpack --element=src/path/to/element.ts --elementPrefix=the-special
Feature optimization
This command supports the ability to optimize code based on statically asserted features. The tool can search the source code for modules that attempt to detect features using a @dojo/has
type of API. By supplying a feature set (or sets) on the command line, the build will optimize code branches, making the code smaller and more efficient. This allows targeting of particular platforms.
When specifying multiple feature sets, if they do not align, the tool will not optimize the source code for these feature sets and will instead continue to leave that feature to be detected at run-time.
From the command line, the feature sets are provided to the -f
or --feature
argument. The available feature sets are aligned to platforms. The currently available feature sets are:
Feature Set | Description |
---|
android | This feature set represents Android 5+ with integrated Chrome browser. Note it is not suitable for Android 4.4. |
chrome | This feature set represents Chrome 59+ or Opera 46+1 |
edge | This feature set represents Edge 15+1 |
firefox | This feature set represents Firefox 54+1 |
ie11 | This feature set represents Internet Explorer 11 |
ios | This feature set represents iOS 10.3+2 |
node | This feature set represents Node.js 6/72 |
node8 | This feature set represents Node.js 8+ |
safari | This feature set represents Safari 10+2 |
[1]: Many of these features were present in earlier versions, but the specific version was the GA release at the time of writing when this was validated.
[2]: At least one of the features was not present in previous releases.
Instead of sniffing for a browser, the feature sets are a static set of features that are expressed as flags in the @dojo
modules. The current set of flags are:
Flag | Description |
---|
arraybuffer | Supports ArrayBuffer |
blob | Supports the blob response type for XHR requests |
dom-mutationobserver | Supports MutationObserver |
es-observable | Supports ES Observable proposal |
es2017-object | Supports ES2017 Object features |
es2017-string | Supports ES2017 String features |
es6-array | Supports ES2015 Array features (except .fill ) |
es6-array-fill | Supports a non-buggy version of Array.prototype.fill() |
es6-map | Supports ES2015 Map |
es6-math | Supports ES2015 Math features (except .imul |
es6-math-imul | Supports a non-buggy version of Math.imul() |
es6-object | Supports ES2015 Object features |
es6-promise | Supports ES2015 Promise |
es6-set | Supports ES2015 Set |
es6-string | Supports ES2015 String features (except .raw() |
es6-string-raw | Supports a non-buggy version of String.raw() |
es6-symbol | Supports ES2015 Symbol |
es6-weakmap | Supports ES2015 WeakMap |
es7-array | Supports ES2016 Array features |
fetch | Supports the fetch API |
filereader | Supports the FileReader API |
float32array | Supports the Float32Array API |
formdata | Supports form data |
host-node | Is a NodeJS Host |
host-browser | Is a Browser Host |
microtasks | Supports an API that allows scheduling of microtasks |
node-buffer | Supports the Node.JS Buffer API |
raf | Supports the requestAnimationFrame API |
setimmediate | Supports the setImmediate API |
xhr | Supports XMLHTTPRequest API |
xhr2 | Supports the XMLHTTPRequest 2 API |
An example of generating a build that hardwires features for Microsoft Edge and Chrome, you would use the following on the command line:
$ dojo build -f edge chrome
Eject
Ejecting @dojo/cli-build-webpack
will produce a config/build-webpack/webpack.config.js
file. You can run build using webpack with:
node_modules/.bin/webpack --config=config/build-webpack/webpack.config.js
Interop with external libraries
External libraries that cannot be loaded normally via webpack can be included in a Dojo 2 application by providing an implementation of require
or define
, and some
configuration in the project's .dojorc
file.
.dojorc
is a JSON file that contains configuration for Dojo 2 CLI tasks. Configuration for the dojo build
task can be provided under the
build-webpack
property.
Configuration for external dependencies can be provided under the externals
property of the build-webpack
config. externals
is an object with two
allowed properties:
-
outputPath
: An optional property specifying an output path to which files should be copied.
-
dependencies
: A required array that defines which modules should be loaded via the external loader, and what files should be included in the build. Each entry can be one of two types:
-
A string that indicates that this path, and any children of this path, should be loaded via the external loader
-
An object that provides additional configuration for dependencies that need to be copied into the built application. This object has the following properties:
Property | Type | optional | Description |
---|
from | string | false | A path relative to node_modules specifying the dependency location to copy into the build application. |
to | string | true | A path that replaces from as the location to copy this dependency to. By default, dependencies will be copied to ${externalsOutputPath}/${to} or ${externalsOutputPath}/${from} if to is not specified. |
name | string | true | Indicates that this path, and any children of this path, should be loaded via the external loader |
inject | string, string[], or boolean | true | This property indicates that this dependency defines, or includes, scripts or stylesheets that should be loaded on the page. If inject is set to true , then the file at the location specified by to or from will be loaded on the page. If this dependency is a folder, then inject can be set to a string or array of strings to define one or more files to inject. Each path in inject should be relative to ${externalsOutputPath}/${to} or ${externalsOutputPath}/${from} depending on whether to was provided. |
As an example the following configuration will inject src/legacy/layer.js
into the application page, declare that modules a
, b
, and c
are external and should be delegated to the external layer, and then copy the folder node_modules/legacy-dep
, from which several files are injected. All of these files will be copied into the externals
folder, which could be overridden by specifying the outputPath
property in the externals
configuration.
"externals": {
"dependencies": [
"a",
"b",
"c",
{ "from": "src/legacy/layer.js", "inject": true },
{ "from": "node_modules/legacy-dep", "inject": [ "modulA/layer.js", "moduleA/layer.css", "moduleB/layer.js" ] }
]
}
Types for any dependencies included in externals
can be installed in node_modules/@types
, like any other dependency.
How do I contribute?
We appreciate your interest! Please see the Dojo 2 Meta Repository for the
Contributing Guidelines and Style Guide.
Installation
To start working with this package, clone the repository and run npm install
.
In order to build the project run grunt dev
or grunt dist
.
Testing
Test cases MUST be written using Intern using the Object test interface and Assert assertion interface.
90% branch coverage MUST be provided for all code submitted to this repository, as reported by istanbul’s combined coverage results for all supported platforms.
To test locally in node run:
grunt test
Licensing information
© 2017 JS Foundation. New BSD license.