Replaces references from non-optimized scripts, stylesheets and other assets to their optimized version within a set of HTML files (or any templates/views).
If you haven't used grunt before, be sure to check out the Getting Started guide, as it explains how to create a gruntfile as well as install and use grunt plugins. Once you're familiar with that process, install this plugin with this command:
npm install grunt-usemin --save-dev
usemin
replaces the references of scripts, stylesheets and other assets within HTML files dynamically with optimized versions of them. To do this usemin
exports 2 built-in tasks called useminPrepare
and usemin
and utilizes a couple of other Grunt plugins for the optimization process. usemin
does this by generating the subtasks for these Grunt plugins dynamically.
The built-in tasks of usemin
:
useminPrepare
prepares the configuration to transform specific blocks in the scrutinized file into a single line, targeting an optimized version of the files. This is done by generating subtasks calledgenerated
for every optimization steps handled by the Grunt plugins listed below.usemin
replaces the blocks by the file they reference, and replaces all references to assets by their revisioned version if it is found on the disk. This target modifies the files it is working on.
Grunt plugins which usemin
can use to optimize files:
concat
concatenates files (usually JS or CSS).uglify
minifies JS files.cssmin
minifies CSS files.filerev
revisions static assets through a file content hash.
Important: You still need to manually install and load these dependencies.
In a typical usemin
setup you launch useminPrepare
first, then call every optimization step you want through their generated
subtask and call usemin
in the end. It could look like this:
// simple build task
grunt.registerTask('build', [
'useminPrepare',
'concat:generated',
'cssmin:generated',
'uglify:generated',
'filerev',
'usemin'
]);
useminPrepare
task updates the grunt configuration to apply a configured transformation flow to tagged files (i.e. blocks).
By default the transformation flow is composed of concat
and uglifyjs
for JS files, but it can be configured.
Blocks are expressed as:
<!-- build:<type>(alternate search path) <path> -->
... HTML Markup, list of script / link tags.
<!-- endbuild -->
- type: can be
js
,css
or a custom type with a block replacement function defined - If another type, the block will be ignored. Useful for "development only" blocks that won't appear in your build
- alternate search path: (optional) By default the input files are relative to the treated file. Alternate search path allows one to change that
- path: the file path of the optimized file, the target output
An example of this in completed form can be seen below:
<!-- build:js js/app.js -->
<script src="js/app.js"></script>
<script src="js/controllers/thing-controller.js"></script>
<script src="js/models/thing-model.js"></script>
<script src="js/views/thing-view.js"></script>
<!-- endbuild -->
The transformation flow is made of sequential steps: each of the steps transform the file, and useminPrepare will modify the configuration in order for the described steps to be correctly performed.
By default the flow is: concat -> uglifyjs
.
Additionally to the flow, at the end, some postprocessors can be launched to further alter the configuration.
Let's have an example, using the default flow (we're just going to look at the steps), app
for input dir, dist
for output dir, and the following block:
<!-- build:js js/app.js -->
<script src="js/app.js"></script>
<script src="js/controllers/thing-controller.js"></script>
<script src="js/models/thing-model.js"></script>
<script src="js/views/thing-view.js"></script>
<!-- endbuild -->
The produced configuration will look like:
{
concat: {
generated: {
files: [
{
dest: '.tmp/concat/js/app.js',
src: [
'app/js/app.js',
'app/js/controllers/thing-controller.js',
'app/js/models/thing-model.js',
'app/js/views/thing-view.js'
]
}
]
}
},
uglify: {
generated: {
files: [
{
dest: 'dist/js/app.js',
src: [ '.tmp/concat/js/app.js' ]
}
]
}
}
}
Internally, the task parses your HTML markup to find each of these blocks, and initializes the corresponding Grunt config for the concat / uglify tasks when type=js
, the concat / cssmin tasks when type=css
.
One doesn't need to specify a concat/uglify/cssmin configuration anymore.
It uses only one target: html
, with a list of the concerned files. For example, in your Gruntfile.js
:
By default, it will consider the directory where the looked-at file is located as the 'root' filesystem. Each relative path (for example to a javascript file) will be resolved from this path. Same goes for the absolute ones.
If you need to change the 'root' dir, use the root
option (see below).
useminPrepare: {
html: 'index.html'
}
Targets can also be configured using the grunt src-dest files syntax http://gruntjs.com/configuring-tasks#files, e.g.
useminPrepare: {
foo: {
src: ['index.html', 'another.html']
},
bar: {
src: 'index.html'
}
}
Type: 'string'
Default: nil
Base directory where the transformed files should be output.
Type: 'string'
Default: .tmp
Base directory where the temporary files should be output (e.g. concatenated files).
Type: 'string' or 'Array'
Default: nil
The root directory from which your files will be resolved.
Type: 'object'
Default: { steps: { js: ['concat', 'uglifyjs'], css: ['concat', 'cssmin'] }, post: {} }
This allow you to configure the workflow, either on a per-target basis, or for all the targets.
You can change the steps
or the post-processors (post
) separately.
For example:
- to change the
js
steps
andpost
for the targethtml
:
useminPrepare: {
html: 'index.html',
options: {
flow: {
html: {
steps: {
js: ['uglifyjs']
},
post: {}
}
}
}
}
- to change the
js
steps
andpost
for all targets:
useminPrepare: {
html: 'index.html',
options: {
flow: {
steps: {
js: ['uglifyjs']
},
post: {}
}
}
}
- to customize the generated configuration via post-processors:
useminPrepare: {
html: 'index.html',
options: {
flow: {
steps: {
js: ['uglifyjs']
},
post: {
js: [{
name: 'uglify',
createConfig: function (context, block) {
var generated = context.options.generated;
generated.options = {
foo: 'bar'
};
}
}]
}
}
}
}
The given steps or post-processors may be specified as strings (for the default steps and post-processors), or as an object (for the user-defined ones).
User-defined steps and post-processors must have 2 attributes:
name
: name of theGruntfile
attribute that holds the corresponding configcreateConfig
which is a 2 arguments function ( acontext
and the treatedblock
)
For an example of steps/post-processors, you can have a look at concat
and uglifyjs
in the lib/config
directory of this repository.
The createConfig
function is responsible for creating (or updating) the configuration associated to the current step/post-processor.
It takes 2 arguments ( a context
and the treated block
), and returns a configuration object.
The context
object represent the current context the step/post-processor is running in. As the step/post-processor is a step of a flow, it must be listed in the input files and directory it must write a configuration for, potentially the already existing configuration. It must also indicate to the other steps/post-processor which files it will output in which directory. All this information is held by the context
object.
Attributes:
inDir
: the directory where theinput
file for the step/post-processors will beinFiles
: the list of input file to take care ofoutDir
: where the files created by the step/post-processors will beoutFiles
: the files that are going to be createdlast
: whether or not we're the last step of the flowoptions
: options of theGruntfile.js
for this step (e.g. if the step is namedfoo
, holds configuration of theGruntfile.js
associated to the attributefoo
)
The actual looked-at block, parsed an put in a structure.
Example: The following block
<!-- build:js scripts/site.js -->',
<script src="foo.js"></script>',
<script src="bar.js"></script>',
<script src="baz.js"></script>',
<!-- endbuild -->'
is parsed as, and given to createConfig
as:
var block = {
type: 'js',
dest: 'scripts/site.js',
src: [
'foo.js',
'bar.js',
'baz.js'
],
raw: [
' <!-- build:js scripts/site.js -->',
' <script src="foo.js"></script>',
' <script src="bar.js"></script>',
' <script src="baz.js"></script>',
' <!-- endbuild -->'
]
};
The usemin
task has 2 actions:
- First it replaces all the blocks with a single "summary" line, pointing to a file creating by the transformation flow.
- Then it looks for references to assets (i.e. images, scripts, ...), and tries to replace them with their revved version if it can find one on disk
By default usemin
will look for a map object created by grunt-filerev, located in grunt.filerev.summary
. If it does not find it it will revert to disk lookup which is longer.
Note that by using the options.revmap
(see below), you can furnish a map object.
When usemin
tries to replace referenced assets with their revved version it has to look at a collection of directories (asset search paths): for each of the directories of this collection it will look at the below tree, and try to find the revved version.
This asset search directories collection is by default set to the location of the file that is scrutinized but can be modified (see Options below).
<link rel="stylesheet" href="styles/main.css">
<img src="../images/test.png">
By default usemin
will look under dist/html
for revved versions of:
styles/main.css
: a revved version ofmain.css
will be looked at under thedist/html/styles
directory. For example a filedist/html/styles/main.1234.css
will match (althoughdist/html/main.1234.css
won't: the path of the referenced file is important)../images/test.png
: it basically means that a revved version oftest.png
will be looked for under thedist/images
directory
<link rel="stylesheet" href="/styles/main.css">
<img src="/images/test.png">
By default usemin
will look under dist/html
for revved versions of styles/main.css
and images/test.png
. Now let's suppose our assets are scattered in dist/assets
. By changing the asset search path list to ['dist/assets']
, the revved versions of the files will be searched for under dist/assets
(and thus, for example, dist/assets/images/test.875487.png
and dist/assets/styles/main.98090.css
) will be found.
Type: 'Array'
Default: Single item array set to the value of the directory where the currently looked at file is.
List of directories where we should start to look for revved version of the assets referenced in the currently looked at file.
Example:
usemin: {
html: 'build/index.html',
options: {
assetsDirs: ['foo/bar', 'bar']
}
}
Type: 'Object'
Default: Empty
Allows for user defined pattern to replace reference to files. For example, let's suppose that you want to replace
all references to 'image.png'
in your Javascript files by the revved version of image.png
found below the directory images
.
By specifying something along the lines of:
usemin: {
js: '*.js',
options: {
assetsDirs: 'images',
patterns: {
js: [
[/(image\.png)/, 'Replacing reference to image.png']
]
}
}
}
So in short:
- key in pattern should match the target (e.g
js
key for the targetjs
) - Each pattern is an array of arrays. These arrays are composed of 4 items (last 2 are optional):
- First one if the regexp to use. The first group is the one that is supposed to represent the file reference to replace
- Second one is a logging string
- FIXME
- FIXME
Type: 'Object'
Default: { css: function (block) { ... }, js: function (block) { ... } }
This lets you define how blocks get their content replaced. Useful to have block types other that css
and js
.
- Object key matches a block type
- Value is the replacement function for that block type.
- The replacement function gets called with a single argument: a block object.
- Must return a
String
, the "summary" line that will replace the block content.
For example, to create a less
block you could define its replacement function like this:
usemin: {
html: index.html,
options: {
blockReplacements: {
less: function (block) {
return '<link rel="stylesheet" href="' + block.dest + '">';
}
}
}
}
Type: 'String'
Default: Empty
Indicate the location of a map file, as produced by grunt-filerev
for example. This map file is a simple JSON file, holding an object
which attributes are the original file and associated value is the transformed file. For example:
{
"foo.png": "foo.1234.png"
}
This map will be used instead of looking for file on the disk.
The main difference to be kept in mind, regarding directories and tasks, is that for useminPrepare
, the directories needs to indicate the input,
transient and output path needed to output the right configuration for the processors pipeline,
whereas in the case of usemin
it only reflects the output paths, as all the needed assets should have
been output to the destination dir (either transformed or just copied)
useminPrepare
is trying to prepare the right configuration for the pipeline of actions that are going to be
applied on the blocks (for example concatenation and uglify-cation). As such it needs to have the input
directory, temporary directories (staging) and destination directory.
The files referenced in the block are either absolute or relative (/images/foo.png
or ../../images/foo.png
).
Absolute files references are looked in a given set of search path (input), which by default is set
to the directory where the html/css file examined is located (can be overridden per block, or more
generally through root
option).
Relative files references are also looked at from location of the examined file, unless stated otherwise.
usemin
target replaces references to images, scripts, css, ... in the furnished files (html, css, ...).
These references may be either absolute (i.e. /images/foo.png
) or relative (i.e. image/foo.png
or ../images/foo.png
).
When the reference is absolute a set of asset search paths should be looked at under the
destination directory (for example, using the previous example, and searchpath
equal to ['assets']
, usemin
would try to find either a revved version of the image
of the image below the assets
directory: for example dest/assets/images/foo.1223443.png
).
When the reference is relative, by default the referenced item is looked in the path
relative to the current file location in the destination directory (e.g. with the
preceding example, if the file is build/bar/index.html
, then transformed index.html
will be in dist/bar
, and usemin
will look for dist/bar/../images/foo.32323.png
).
|
+- app
| +- index.html
| +- assets
| +- js
| +- foo.js
| +- bar.js
+- dist
We want to optimize foo.js
and bar.js
into optimized.js
, referenced using relative path. index.html
should contain the following block:
<!-- build:js assets/js/optimized.js -->
<script src="assets/js/foo.js"></script>
<script src="assets/js/bar.js"></script>
<!-- endbuild -->
We want our files to be generated in the dist
directory.
By using the following useminPrepare
config:
{
useminPrepare: {
html: 'app/index.html',
options: {
dest: 'dist'
}
}
}
This will, on the fly, generate the following configuration:
{
concat:
{
'.tmp/concat/assets/js/optimized.js': [
'app/assets/js/foo.js',
'app/assets/js/bar.js'
]
},
uglify:
{
'dist/assets/js/optimized.js': ['.tmp/concat/assets/js/optimized.js']
}
}
app
|
+- html
| +- index.html
+- assets
| +- js
| +- foo.js
| +- bar.js
+- dist
We want to optimize foo.js
and bar.js
into optimized.js
, referenced using absolute path. index.html
should contain the following block:
<!-- build:js /assets/js/optimized.js -->
<script src="/assets/js/foo.js"></script>
<script src="/assets/js/bar.js"></script>
<!-- endbuild -->
We want our files to be generated in the dist
directory.
By using the following useminPrepare
config:
{
useminPrepare: {
html: 'html/index.html',
options: {
root: 'app',
dest: 'dist'
}
}
}
This will, on the fly, generate the following configuration:
{
concat:
{
'.tmp/concat/assets/js/optimized.js': [
'app/assets/js/foo.js',
'app/assets/js/bar.js'
]
},
uglify:
{
'dist/assets/js/optimized.js': ['.tmp/concat/assets/js/optimized.js']
}
}
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