AssetGraph is an extensible, node.js-based framework for manipulating and optimizing web pages and web applications. The main core is a dependency graph model of your entire website, where all assets are treated as first class citizens. It can automatically discover assets based on your declarative code, reducing the configuration needs to a minimum.
If you just want to get started with the basics, read Peter MĂĽller - Getting started with Assetgraph.
If you are looking for a prepackaged build system take a look at Assetgraph-builder.
- assetgraph-builder - A static web page build system that post-processes your website with extremely little configuration
- subfont - A tool that supercharges your webfont loading by automatically applying all best practice loading techniques and generating optimal font subsets
- hyperlink - A link checker tool that will ensure all your internal and external links are intact and up to date
- seespee - A Content-Security Policy generator. Point it at a webpage and it will tell you what policy you need as a minimum
- trackingdog - cli for finding the original source location of a line+column in a generated file, utilizing the source map
- bringhome - cli for downloading a web page and its assets to a local directory.
All web build tools, even those that target very specific problems, have to get a bunch of boring stuff right just to get started, such as loading files from disc, parsing and serializing them, charsets, inlining, finding references to other files, resolution of and updating urls, etc.
The observation that inspired the project is that most of these tasks can be viewed as graph problems, where the nodes are the assets (HTML, CSS, images, JavaScript...) and the edges are the relations between them, e.g. anchor tags, image tags, favorite icons, css background-image properties and so on.
An AssetGraph object is a collection of assets (nodes) and the relations (edges) between them. It's a basic data model that allows you to populate, query, and manipulate the graph at a high level of abstraction. For instance, if you change the url of an asset, all relations pointing at it are automatically updated.
Additionally, each individual asset can be inspected and massaged using a relevant API: jsdom for HTML, PostCSS for CSS, and an Esprima AST for Javascript.
AssetGraph represents inline assets the same way as non-inline ones,
so eg. inline scripts, stylesheets, and images specified as data:
urls are also first-class nodes in the graph. This means that you
don't need to dig into the HTML of the containing asset to manipulate
them. An extreme example would be an Html asset with a conditional
comment with an inline stylesheet with an inline image, which are
modelled as 4 separate assets:
<!DOCTYPE html>
<html>
<head>
<!--[if !IE]> -->
<style type="text/css">
body {
background-image: url(data:image/gif;base64,R0lGODlhAQABAID/AMDAwAAAACH5BAEAAAAALAAAAAABAAEAAAICRAEAOw==);
}
</style>
<!-- <![endif]-->
</head>
<body></body>
</html>
These are some of the supported assets and associated relation types:
<a>
, <link rel="stylesheet|shortcut icon|fluid-icon|alternate|serviceworker">
, <script>
, <style>
,
<html manifest="...">
<img>
, <video>
, <audio>
, <applet>
,
<embed>
, <esi:include>
, <iframe>
, <svg>
, <meta property="og:...">
<style>
, inline style=...
attributes, event handlers, <?xml-stylesheet href=...>
, <font-face-src>
//# sourceMappingURL=...
, background-image: url(...)
, @import url(...)
, behavior: url(...)
,
filter: AlphaImageLoader(src='...')
, @font-face { src: url(...) }
//# sourceMappingURL=...
, homegrown 'foo/bar.png'.toString('url')
syntax for referencing external files
Icon urls, related_applications
, start_url
, etc.
Entries in the CACHE
, NETWORK
and FALLBACK
sections
(none)
- Build an AssetGraph programmatically or load it from disk or a remote server via http.
- Find explicit dependencies between JavaScript and CSS and roll them
out as
<script>
and<link rel='stylesheet'>
tags in your HTML. - Bundle and inline CSS and JavaScript.
- Create a cache manifest with references to all the assets your web app needs to be usable offline.
- Move all CSS, JavaScript, image assets etc. to a static dir and rename them to md5.extension so the web server can be configured to set a far-future Cache-Control.
- Help getting your static assets on a CDN by allowing you to easily rewrite all references to them.
- Use Graphviz to visualize your dependencies at any step.
- Using the separate assetgraph-sprite
transform: Optimize CSS background images by creating sprite
images. The spriting is guided by a set of custom CSS properties
with a
-ag-sprite
prefix.
Make sure you have node.js and npm installed, then run:
$ npm install assetgraph
AssetGraph supports a flexible syntax for finding assets and relations
in a populated graph using the findAssets
and findRelations
methods. Both methods take a query object as the first argument.
The query engine uses MongoDB-like queries via the
sift module. Please consult that
to learn about the advanced querying features. Below are some basic examples.
Get an array containing all assets in the graph:
var allAssets = assetGraph.findAssets();
Find assets by type:
var htmlAssets = assetGraph.findAssets({ type: 'Html' });
Find assets of different named types:
var jsAndCss = assetGraph.findAssets({ type: { $in: ['Css', 'JavaScript' ] });
Find assets by matching a regular expression against the url:
var localImageAssets = assetGraph.findAssets({
url: { $regex: /^file:.*\.(?:png|gif|jpg)$/ },
});
Find assets by predicate function:
var orphanedJavaScriptAssets = assetGraph.findAssets(function (asset) {
return (
asset.type === 'JavaScript' &&
assetGraph.findRelations({ to: asset }).length === 0
);
});
Find all HtmlScript (<script src=...>
and inline <script>
) relations:
var allHtmlScriptRelations = assetGraph.findRelations({ type: 'HtmlScript' });
Query objects have "and" semantics, so all conditions must be met for a multi-criteria query to match:
var textBasedAssetsOnGoogleCom = assetGraph.findAssets({
isText: true,
url: { $regex: /^https?:\/\/(?:www\.)google\.com\// },
});
Find assets by existence of incoming relations:
var importedCssAssets = assetGraph.findAssets({
type: 'Css',
incomingRelations: { $elemMatch: { type: 'CssImport' } },
});
Relation queries can contain nested asset queries when querying the
to
and from
properties.
Find all HtmlAnchor (<a href=...>
) relations pointing at local images:
assetGraph.findRelations({
type: 'HtmlAnchor',
to: { isImage: true, url: { $regex: /^file:/ } },
});
AssetGraph comes with a collection of premade "transforms" that you can use as high level building blocks when putting together your build procedure. Most transforms work on a set of assets or relations and usually accept a query object so they can be scoped to work on only a specific subset of the graph.
Usually you'll start by loading some initial assets from disc or via
http using the loadAssets
transform, then get the related assets
added using the populate
transform, then do the actual
processing. Eventually you'll probably write the resulting assets back
to disc.
Thus the skeleton looks something like this:
var AssetGraph = require('assetgraph');
const assetGraph = new AssetGraph({ root: '/the/root/directory/' });
await assetGraph.loadAssets('*.html'); // Load all Html assets in the root dir
await assetGraph.populate({ followRelations: { type: 'HtmlAnchor' } }); // Follow <a href=...>
// More work...
await assetGraph.writeAssetsToDisc({ type: 'Html' }); // Overwrite existing files
// Done!
In the following sections the built-in transforms are documented individually:
Add a CacheManifest
asset to each Html
asset in the graph (or
to all Html
assets matched by queryObj
if provided). The cache
manifests will contain relations to all assets reachable by traversing
the graph through relations other than HtmlAnchor
.
Bundle the Css
and JavaScript
assets pointed to by the
relations matched by queryObj
.
The strategyName
(string) parameter can be either:
Each unique asset pointing to one or more of the assets being
bundled will get its own bundle. This can lead to duplication if
eg. several Html
assets point to the same sets of assets, but
guarantees that the number of http requests is kept low.
Create as many bundles as needed, optimizing for combined byte size
of the bundles rather than http requests. Warning: Not as well
tested as oneBundlePerIncludingAsset
.
Note that a conditional comment within an Html
asset conveniently
counts as a separate including asset, so in the below example
ie.css
and all.css
won't be bundled together:
<!--[if IE]><link rel="stylesheet" href="ie.css" /><![endif]-->
<link rel="stylesheet" href="all.css" />
The created bundles will be placed at the root of the asset graph with
names derived from their unique id (for example
file://root/of/graph/124.css
) and will replace the original
assets.
Compresses all JavaScript
assets in the graph (or those specified by
queryObj
).
The compressorName
(string) parameter can be either:
The excellent UglifyJS
compressor. If provided, the compressorOptions
object will be
passed to UglifyJS' ast_squeeze
command.
Yahoo's YUICompressor though Tim-Smart's node-yuicompressor
module. If provided, the compressorOptions
object will be
passed as the second argument to require('yui-compressor').compile
.
Google's Closure Compiler through Tim-Smart's node-closure
module. If provided, the compressorOptions
object will be
passed as the second argument to
require('closure-compiler').compile
.
Finds all Html
assets in the graph (or those specified by
queryObj
), finds all CssImport
relations (@import url(...)
) in inline and external CSS and converts them to
HtmlStyle
relations directly from the Html document.
Effectively the inverse of assetGraph.convertHtmlStylesToInlineCssImports
.
Example:
<style type="text/css">
@import url(print.css) print;
@import url(foo.css);
body {
color: red;
}
</style>
is turned into:
<link rel="stylesheet" href="print.css" media="print" />
<link rel="stylesheet" href="foo.css" />
<style type="text/css">
body {
color: red;
}
</style>
Finds all Html
assets in the graph (or those specified by
queryObj
), finds all outgoing, non-inline HtmlStyle
relations
(<link rel='stylesheet' href='...'>
) and turns them into groups of
CssImport
relations (@import url(...)
) in inline
stylesheets. A maximum of 31 CssImports
will be created per inline
stylesheet.
Example:
<link rel="stylesheet" href="foo.css" />
<link rel="stylesheet" href="bar.css" />
is turned into:
<style type="text/css">
@import url(foo.css);
@import url(bar.css);
</style>
This is a workaround for the limit of 31 stylesheets in Internet Explorer <= 8. This transform allows you to have up to 31*31 stylesheets in the development version of your HTML and still have it work in older Internet Explorer versions.
Uses the Graphviz dot
command to render the current contents of the
graph and writes the result to fileName
. The image format is
automatically derived from the extension and can be any of these. Using
.svg
is recommended.
Requires Graphviz to be installed, sudo apt-get install graphviz
on
Debian/Ubuntu.
Experimental: For each JavaScript asset in the graph (or those matched by
queryObj), find all reachable JavaScript
assets and execute them
in order.
If the context
parameter is specified, it will be used as the
execution context. Otherwise a new context will be created using
vm.createContext.
Finds all inline relations in the graph (or those matched by
queryObj
) and makes them external. The file names will be derived
from the unique ids of the assets.
For example:
<script>
foo = 'bar';
</script>
<style type="text/css">
body {
color: maroon;
}
</style>
could be turned into:
<script src="4.js"></script>
<link rel="stylesheet" href="5.css" />
Finds all Html
assets in the graph (or those matched by
queryObj
), finds all directly reachable Css
assets, and
converts the outgoing CssImage
relations (background-image
etc.) to data:
urls, subject to these criteria:
-
If
options.sizeThreshold
is specified, images with a greater byte size won't be inlined. -
To avoid duplication, images referenced by more than one
CssImage
relation won't be inlined. -
A
CssImage
relation pointing at an image with aninline
GET parameter will always be inlined (eg.background-image: url(foo.png?inline);
). This takes precedence over the first two criteria. -
If
options.minimumIeVersion
is specified, thedata:
url length limitations of that version of Internet Explorer will be honored.
If any image is inlined an Internet Explorer-only version of the
stylesheet will be created and referenced from the Html
asset in a
conditional comment.
For example:
await assetGraph.inlineCssImagesWithLegacyFallback(
{ type: 'Html' },
{ minimumIeVersion: 7, sizeThreshold: 4096 }
);
where assetGraph
contains an Html asset with this fragment:
<link rel="stylesheet" href="foo.css" />
and foo.css
contains:
body {
background-image: url(small.gif);
}
will be turned into:
<!--[if IE]><link rel="stylesheet" href="foo.css" /><![endif]-->
<!--[if !IE]>--><link rel="stylesheet" href="1234.css" /><!--<![endif]-->
where 1234.css
is a copy of the original foo.css
with the
images inlined as data:
urls:
body {
background-image: url(data:image/gif;base64,R0lGODlhAQABAID/AMDAwAAAACH5BAEAAAAALAAAAAABAAEAAAICRAEAOw==);
}
The file name 1234.css
is just an example. The actual asset file
name will be derived from the unique id of the copy and be placed at
the root of the assetgraph.
Inlines all relations in the graph (or those matched by
queryObj
). Only works on relation types that support inlining, for
example HtmlScript
, HtmlStyle
, and CssImage
.
Example:
await assetGraph.inlineRelations({ type: { $in: ['HtmlStyle', 'CssImage'] } });
where assetGraph
contains an Html asset with this fragment:
<link rel="stylesheet" href="foo.css" />
and foo.css
contains:
body {
background-image: url(small.gif);
}
will be turned into:
<style type="text/css">
body {
background-image: url(data:image/gif;base64,R0lGODlhAQABAID/AMDAwAAAACH5BAEAAAAALAAAAAABAAEAAAICRAEAOw==);
}
</style>
Note that foo.css
and the CssImage
will still be modelled as
separate assets after being inlined, so they can be manipulated the
same way as when they were external.
Add new assets to the graph and make sure they are loaded, returning a promise that fulfills with an array of the assets that were added. Several syntaxes are supported, for example:
const [aHtml, bCss] = await assetGraph.loadAssets('a.html', 'b.css'); // Relative to assetGraph.root
await assetGraph.loadAssets({
url: 'http://example.com/index.html',
text: 'var foo = bar;', // The source is specified, won't be loaded
});
file://
urls support wildcard expansion:
await assetGraph.loadAssets('file:///foo/bar/*.html'); // Wildcard expansion
await assetGraph.loadAssets('*.html'); // assetGraph.root must be file://...
Compute the MD5 sum of every asset in the graph (or those specified by
queryObj
) and remove duplicates. The relations pointing at the
removed assets are updated to point at the copy that is kept.
For example:
await assetGraph.mergeIdenticalAssets({ type: { $in: ['Png', 'Css'] } });
where assetGraph
contains an Html
asset with this fragment:
<head>
<style type="text/css">
body {
background-image: url(foo.png);
}
</style>
</head>
<body>
<img src="bar.png" />
</body>
will be turned into the following if foo.png
and bar.png
are identical:
<head>
<style type="text/css">
body {
background-image: url(foo.png);
}
</style>
</head>
<body>
<img src="foo.png" />
</body>
and the bar.png
asset will be removed from the graph.
Minify all assets in the graph, or those specified by
queryObj
. Only has an effect for asset types that support
minification, and what actually happens also varies:
Pure-whitespace text nodes are removed immediately.
The asset gets marked as minified (isPretty
is set to
false
), which doesn't affect the in-memory representation
(asset.parseTree
), but is honored when the asset is serialized.
For JavaScript
this only governs the amount of whitespace
(escodegen's
compact
parameter); for how to apply variable renaming and
other compression techniques see assetGraph.compressJavaScript
.
Compare to assetGraph.prettyPrintAssets
.
Add assets to the graph by recursively following "dangling
relations". This is the preferred way to load a complete web site or
web application into an AssetGraph
instance after using
assetGraph.loadAssets
to add one or more assets to serve as the
starting point for the population. The loading of the assets happens
in parallel.
The options
object can contain these properties:
Specifies the set assets of assets to start populating from (defaults to all assets in the graph).
Limits the set of relations that are followed. The default is to follow all relations.
If there's an error loading an asset and an onError
function is
specified, it will be called, and the population will continue. If
not specified, the population will stop and pass on the error to its
callback. (This is poorly thought out and should be removed or
redesigned).
The maximum number of assets that can be loading at once (defaults to 100).
Example:
const assetGraph = new AssetGraph();
await assetGraph.loadAssets('a.html');
await assetGraph.populate({
followRelations: {
type: 'HtmlAnchor',
to: { url: { $regex: /\/[bc]\.html$/ } },
},
});
If a.html
links to b.html
, and b.html
links to c.html
(using <a href="...">
), all three assets will be in the graph
after assetGraph.populate
is done. If c.html
happens to link
to d.html
, d.html
won't be added.
Pretty-print all assets in the graph, or those specified by
queryObj
. Only has an effect for asset types that support pretty
printing (JavaScript
, Css
, Html
, Xml
, and Json
).
The asset gets marked as pretty printed (isPretty
is set to
true
), which doesn't affect the in-memory representation
(asset.parseTree
), but is honored when the asset is
serialized. For Xml
, and Html
, however, the existing
whitespace-only text nodes in the document are removed immediately.
Compare to assetGraph.minifyAssets
.
Example:
// Pretty-print all Html and Css assets:
await assetGraph.prettyPrintAssets({ type: { $in: ['Html', 'Css'] } });
Remove all relations in the graph, or those specified by queryObj
.
The options
object can contain these properties:
Whether to also detach the relations (remove their nodes from the
parse tree of the source asset). Only supported for some relation
types. Defaults to false
.
Whether to also remove assets that become "orphans" as a result of removing their last incoming relation.
Sets the width
and height
attributes of the img
elements
underlying all HtmlImage
relations, or those matching
queryObj
. Only works when the image pointed to by the relation is
in the graph.
Example:
const AssetGraph = require('assetgraph');
const assetGraph = new AssetGraph();
await assetGraph.loadAssets('hasanimage.html');
await assetGraph.populate();
// assetGraph.findAssets({type: 'Html'})[0].text === '<body><img src="foo.png"></body>'
await assetGraph.setHtmlImageDimensions();
// assetGraph.findAssets({type: 'Html'})[0].text === '<body><img src="foo.png" width="29" height="32"></body>'
Dumps an ASCII table with some basic stats about all the assets in the
graph (or those matching queryObj
) in their current state.
Example:
Ico 1 1.1 KB
Png 28 196.8 KB
Gif 145 129.4 KB
Json 2 60.1 KB
Css 2 412.6 KB
JavaScript 34 1.5 MB
Html 1 1.3 KB
Total: 213 2.2 MB
Writes the assets matching queryObj
to disc. The outRoot
parameter must be a file://
url specifying the directory where the
files should be output. The optional root
parameter specifies the
url that you want to correspond to the outRoot
directory (defaults
to the root
property of the AssetGraph instance).
Directories will be created as needed.
Example:
const AssetGraph = require('assetgraph');
const assetGraph = new AssetGraph({root: 'http://example.com/'});
await assetGraph.loadAssets(
'http://example.com/bar/quux/foo.html',
'http://example.com/bar/baz.html'
);
// Write the two assets to /my/output/dir/quux/foo.html and /my/output/dir/baz.html:
await assetGraph.writeAssetsToDisc({type: 'Html'} 'file:///my/output/dir/', 'http://example.com/bar/');
Writes all assets in the graph (or those specified by queryObj
) to
stdout. Mostly useful for piping out a single asset.
AssetGraph is licensed under a standard 3-clause BSD license -- see the
LICENSE
-file for details.