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<img align="right" width="111" height="111"
alt="CSSTree logo"
src="https://cloud.githubusercontent.com/assets/270491/19243723/6f9136c6-8f21-11e6-82ac-eeeee4c6c452.png"/>
CSSTree is a tool set to work with CSS, including fast detailed parser (string->AST), walker (AST traversal), generator (AST->string) and lexer (validation and matching) based on knowledge of spec and browser implementations. The main goal is to be efficient and W3C spec compliant, with focus on CSS analyzing and source-to-source transforming tasks.
NOTE: The project is in alpha stage since some parts need further improvements, AST format and API are subjects to change. However it's stable enough and used by packages like CSSO (CSS minifier) and SVGO (SVG optimizer) in production.
By default CSSTree parses CSS as detailed as possible, i.e. each single logical part is representing with its own AST node (see AST format for all possible node types). The parsing detail level can be changed through parser options, for example, you can disable parsing of selectors or declaration values for component parts.
Parser behaves as spec says: "When errors occur in CSS, the parser attempts to recover gracefully, throwing away only the minimum amount of content before returning to parsing as normal". The only thing the parser departs from the specification is that it doesn't throw away bad content, but wraps it in a special node type (Raw
) that allows processing it later.
CSSTree is created with focus on performance and effective memory consumption. Therefore it's one of the fastest CSS parsers at the moment.
The build-in lexer can test CSS against syntaxes defined by W3C. CSSTree uses mdn/data as a basis for lexer's dictionaries and extends it with vendor specific and legacy syntaxes. Lexer can only check the declaration values currently, but this feature will be extended to other parts of the CSS in the future.
Install with npm:
> npm install css-tree
Basic usage:
var csstree = require('css-tree');
// parse CSS to AST
var ast = csstree.parse('.example { world: "!" }');
// traverse AST and modify it
csstree.walk(ast, function(node) {
if (node.type === 'ClassSelector' && node.name === 'example') {
node.name = 'hello';
}
});
// generate CSS from AST
console.log(csstree.generate(ast));
// .hello{world:"!"}
Syntax matching:
// parse CSS to AST as a declaration value
var ast = csstree.parse('red 1px solid', { context: 'value' });
// march to syntax of `border` property
var matchResult = csstree.lexer.matchProperty('border', ast);
// check first value node is a <color>
console.log(matchResult.isType(ast.children.first(), 'color'));
// true
// get a type list matched to a node
console.log(matchResult.getTrace(ast.children.first()));
// [ { type: 'Property', name: 'border' },
// { type: 'Type', name: 'color' },
// { type: 'Type', name: 'named-color' },
// { type: 'Keyword', name: 'red' } ]
MIT