The ParserLib CSS parser is a CSS3 SAX-inspired parser written in JavaScript. By default, the parser only deals with standard CSS syntax and doesn't do validation (checking of property names and values).
The CSS parser is intended for use primarily in command line JavaScript environments. The files you should use are in the build
directory. Copy the files to an appropriate location for your usage.
To use the CSS parser in a Node.js script, include it at the beginning:
var parserlib = require("./node-parserlib");
To use the CSS parser in a Rhino script, include it at the beginning:
load("parserlib.js");
To use the CSS parser on an HTML page, you can either include the entire library on your page:
<script src="parserlib.js"></script>
Or include it as its component parts, the ParserLib core and the CSS parser:
<script src="parserlib-core.js"></script>
<script src="parserlib-css.js"></script>
Note that parsing large JavaScript files may cause the browser to become unresponsive.
You can create a new instance of the parser by using the following code:
var parser = new parserlib.css.Parser();
The constructor accepts an options object that specifies additional features the parser should use. The available options are:
starHack
- set to true to treat properties with a leading asterisk as if the asterisk wasn't there. Default is false.underscoreHack
- set to true to treat properties with a leading underscore as if the underscore wasn't there. Default is false.ieFilters
- set to true to accept IE < 8 stylefilter
properties. Default is false.strict
- set to true to disable error recovery and stop on the first syntax error. Default is false.
Here's an example with some options set:
var parser = new parserlib.css.Parser({ starHack: true, underscoreHack: true });
You can then parse a string of CSS code by passing into the parse()
method:
parser.parse(someCSSText);
The parse()
method throws an error if a non-recoverable syntax error occurs, otherwise it finishes silently. This method does not return a value nor does it build up an abstract syntax tree (AST) for you, it simply parses the CSS text and fires events at important moments along the parse.
Note: The parseStyleSheet()
method is provided for compatibility with SAC-based APIs but does the exact same thing as parse()
.
The CSS parser defines several types that inherit from parserlib.util.SyntaxUnit
. These types are designed to give you easy access to all relevant parts of the CSS syntax.
The parserlib.css.MediaFeature
type represents a specific media feature in a media query, such as (orientation:portrait)
or (color)
. Essentially, this type of object represents anything enclosed in parentheses in a media query. Object of this type have the following properties:
name
- the name of the media feature such as "orientation"value
- the value of the media feature (may benull
)
The parserlib.css.MediaQuery
type represents all parts of a media query. Each instance has the following properties:
modifier
- either "not" or "only"mediaType
- the actual media type such as "print"features
- an array ofparserlib.css.MediaFeature
objects
For example, consider the following media query:
only screen and (max-device-width: 768px) and (orientation:portrait)
A corresponding object would have the following values:
modifier
= "only"mediaType
= "screen"features
= array of (name
="max-device-width",value
="768px") and (name
="orientation",value
="portrait")
The parserlib.css.PropertyName
type represents a property name. Each instance has the following properties:
hack
- if star or underscore hacks are allowed, either "*" or "_" if present (null
if not present or hacks are not allowed)
When star hacks are allowed, the text
property becomes the actual property name, so *width
has hack
equal to "*" and text
equal to "width". If no hacks are allowed, then *width
causes a syntax error while _width
has hack
equal to null
and text
equal to "_width".
The parserlib.css.PropertyValue
type represents a property value. Since property values in CSS are complex, this type of object wraps the various parts into a single interface. Each instance has the following properties:
parts
- array ofPropertyValuePart
objects
The parts
array always has at least one item.
The parserlib.css.PropertyValuePart
type represents an individual part of a property value. Each instance has the following properties:
type
- the type of value part ("unknown", "dimension", "percentage", "integer", "number", "color", "uri", "string", "identifier" or "operator")
A part is considered any atomic piece of a property value not including white space. Consider the following:
font: 1em/1.5em "Times New Roman", Times, serif;
The PropertyName
is "font" and the `PropertyValue' represents everything after the colon. The parts are "1em" (dimension), "/" (operator), "1.5em" (dimension), ""Times New Roman"" (string), "," (operator), "Times" (identifier), "," (operator), and "serif" (identifier).
The parserlib.css.Selector
type represents a single selector. Each instance has a parts
property, which is an array of parserlib.css.SelectorPart
objects, which represent atomic parts of the selector, and parserlib.css.Combinator
objects, which represent combinators in the selector. Consider the following selector:
li.selected > a:hover
This selector has three parts: li.selected
, >
, and a:hover
. The first part is a SelectorPart
, the second is a Combinator
, and the third is a SelectorPart
. Each SelectorPart
is made up of an optional element name followed by an ID, class, attribute condition, pseudo class, and/or pseudo element.
Each instance of parserlib.css.SelectorPart
has an elementName
property, which represents the element name as a parserlib.css.SelectorSubPart
object or null
if there isn't one, and a modifiers
property, which is an array of parserlib.css.SelectorSubPart
objects. Each SelectorSubPart
object represents the smallest individual piece of a selector and has a type
property indicating the type of subpart, "elementName", "class", "attribute", "pseudo", "id", "not". If the type
is "not", then the args
property contains an array of SelectorPart
arguments that were passed to not()
.
Each instance of parserlib.css.Combinator
has an additional type
property that indicates the type of combinator: "descendant", "child", "sibling", or "adjacent-sibling".
The CSS parser fires events as it parses text. The events correspond to important parts of the parsing algorithm and are designed to provide developers with all of the information necessary to create lint checkers, ASTs, and other data structures.
For many events, the event
object contains additional information. This additional information is most frequently in the form of a parserlib.util.SyntaxUnit
object, which has three properties:
text
- the string valueline
- the line on which this token appearedcol
- the column within the line at which this token appeared
The toString()
method for these objects is overridden to be the same value as text
, so that you can treat the object as a string for comparison and concatenation purposes.
You should assign your event handlers before calling the parse()
method.
The startstylesheet
event fires just before parsing of the CSS text begins and the endstylesheet
event fires just after all of the CSS text has been parsed. There is no additional information provided for these events. Example:
parser.addListener("startstylesheet", function(){
console.log("Starting to parse style sheet");
});
parser.addListener("endstylesheet", function(){
console.log("Finished parsing style sheet");
});
The charset
event fires when the @charset
directive is found in a style sheet. Since @charset
is required to appear first in a style sheet, any other occurances cause a syntax error. The charset
event provides an event
object with a property called charset
, which contains the name of the character set for the style sheet. Example:
parser.addListener("charset", function(event){
console.log("Character set is " + event.charset);
});
The namespace
event fires when the @namespace
directive is found in a style sheet. The namespace
event provides an event
object with two properties: prefix
, which is the namespace prefix, and uri
, which is the namespace URI. Example:
parser.addListener("namespace", function(event){
console.log("Namespace with prefix=" + event.prefix + " and URI=" + event.uri);
});
The import
event fires when the @import
directive is found in a style sheet. The import
event provides an event
object with two properties: uri
, which is the URI to import, and media
, which is an array of media queries for which this URI applies. The media
array contains zero or more parserlib.css.MediaQuery
objects. Example:
parser.addListener("import", function(event){
console.log("Importing " + event.uri + " for media types [" + event.media + "]");
});
The startfontface
event fires when @font-face
is encountered and the endfontface
event fires just after the closing right brace (}
) is encountered after @font-face
. There is no additional information available on the event
object. Example:
parser.addListener("startfontface", function(event){
console.log("Starting font face");
});
parser.addListener("endfontface", function(event){
console.log("Ending font face");
});
The startpage
event fires when @page
is encountered and the endfontface
event fires just after the closing right brace (}
) is encountered after @page
. The event
object has two properties: id
, which is the page ID, and pseudo
, which is the page pseudo class. Example:
parser.addListener("startpage", function(event){
console.log("Starting page with ID=" + event.id + " and pseudo=" + event.pseudo);
});
parser.addListener("endpage", function(event){
console.log("Ending page with ID=" + event.id + " and pseudo=" + event.pseudo);
});
The startpagemargin
event fires when a page margin directive (such as @top-left
) is encountered and the endfontface
event fires just after the closing right brace (}
) is encountered after the page margin. The event
object has a margin
property, which contains the actual page margin encountered. Example:
parser.addListener("startpagemargin", function(event){
console.log("Starting page margin " + event.margin);
});
parser.addListener("endpagemargin", function(event){
console.log("Ending page margin " + event.margin);
});
The startmedia
event fires when @media
is encountered and the endmedia
event fires just after the closing right brace (}
) is encountered after @media
. The event
object has one property, media
, which is an array of parserlib.css.MediaQuery
objects. Example:
parser.addListener("startpagemargin", function(event){
console.log("Starting page margin " + event.margin);
});
parser.addListener("endpagemargin", function(event){
console.log("Ending page margin " + event.margin);
});
The startkeyframes
event fires when @keyframes
(or any vendor prefixed version) is encountered and the endkeyframes
event fires just after the closing right brace (}
) is encountered after @keyframes
. The event
object has one property, name
, which is the name of the animation. Example:
parser.addListener("startkeyframes", function(event){
console.log("Starting animation definition " + event.name);
});
parser.addListener("endkeyframes", function(event){
console.log("Ending animation definition " + event.name);
});
The startrule
event fires just after all selectors on a rule have been parsed and the endrule
event fires just after the closing right brace (}
) is encountered for the rule. The event
object has one additional property, selectors
, which is an array of parserlib.css.Selector
objects. Example:
parser.addListener("startrule", function(event){
console.log("Starting rule with " + event.selectors.length + " selector(s)");
for (var i=0,len=event.selectors.length; i < len; i++){
var selector = event.selectors[i];
console.log(" Selector #1 (" + selector.line + "," + selector.col + ")");
for (var j=0,count=selector.parts.length; j < count; j++){
console.log(" Unit #" + (j+1));
if (selector.parts[j] instanceof parserlib.css.SelectorPart){
console.log(" Element name: " + selector.parts[j].elementName);
for (var k=0; k < selector.parts[j].modifiers.length; k++){
console.log(" Modifier: " + selector.parts[j].modifiers[k]);
}
} else{
console.log(" Combinator: " + selector.parts[j]);
}
}
}
});
parser.addListener("endrule", function(event){
console.log("Ending rule with selectors [" + event.selectors + "]");
});
The property
event fires whenever a CSS property (name:value
) is encountered, which may be inside of a rule, a media block, a page block, etc. The event
object has three additional properties: property
, which is the name of the property as a parserlib.css.PropertyName
object, value
, which is an instance of parserlib.css.PropertyValue
(both types inherit from parserlib.util.SyntaxUnit
), and important
, which is a Boolean value indicating if the property is flagged with !important
. Example:
parser.addListener("property", function(event){
console.log("Property '" + event.property + "' has a value of '" + event.value + "' and " + (event.important ? "is" : "isn't") + " important. (" + event.property.line + "," + event.property.col + ")");
});
The error
event fires whenever a recoverable error occurs during parsing. When in strict mode, this event does not fire. The event
object contains three additional properties: message
, which is the error message, line
, which is the line on which the error occurred, and col
, which is the column on that line in which the error occurred. Example:
parser.addListener("error", function(event){
console.log("Parse error: " + event.message + " (" + event.line + "," + event.col + ")", "error");
});
The CSS parser's goal is to be on-par with error recovery of CSS parsers in browsers. To that end, the following error recovery mechanisms are in place:
- Properties - a syntactically incorrect property definition will be skipped over completely. For instance, the second property below is dropped:
a:hover {
color: red;
font:: Helvetica; /*dropped!*/
text-decoration: underline;
}
- Selectors - if there's a syntax error in any selector, the entire rule is skipped over. For instance, the following rule is completely skipped:
a:hover, foo ... bar {
color: red;
font: Helvetica;
text-decoration: underline;
}
-
@ Rules - there are certain @ rules that are only valid in certain contexts. The parser will skip over
@charset
,@namespace
, and@import
if they're found anywhere other than the beginning of the input. -
Unknown @ Rules - any @ rules that isn't recognized is automatically skipped, meaning the entire block after it is not parsed.