//
// LESS - Leaner CSS v1.0.32
// http://lesscss.org
//
// Copyright (c) 2010, Alexis Sellier
// Licensed under the Apache 2.0 License.
//
(function (window, undefined) {
//
// Stub out `require` in the browser
//
function require(arg) {
return window.less[arg.split('/')[1]];
};
// ecma-5.js
//
// -- kriskowal Kris Kowal Copyright (C) 2009-2010 MIT License
// -- tlrobinson Tom Robinson
// dantman Daniel Friesen
//
// Array
//
if (!Array.isArray) {
Array.isArray = function(obj) {
return Object.prototype.toString.call(obj) === "[object Array]" ||
(obj instanceof Array);
};
}
if (!Array.prototype.forEach) {
Array.prototype.forEach = function(block, thisObject) {
var len = this.length >>> 0;
for (var i = 0; i < len; i++) {
if (i in this) {
block.call(thisObject, this[i], i, this);
}
}
};
}
if (!Array.prototype.map) {
Array.prototype.map = function(fun /*, thisp*/) {
var len = this.length >>> 0;
var res = new Array(len);
var thisp = arguments[1];
for (var i = 0; i < len; i++) {
if (i in this) {
res[i] = fun.call(thisp, this[i], i, this);
}
}
return res;
};
}
if (!Array.prototype.filter) {
Array.prototype.filter = function (block /*, thisp */) {
var values = [];
var thisp = arguments[1];
for (var i = 0; i < this.length; i++) {
if (block.call(thisp, this[i])) {
values.push(this[i]);
}
}
return values;
};
}
if (!Array.prototype.reduce) {
Array.prototype.reduce = function(fun /*, initial*/) {
var len = this.length >>> 0;
var i = 0;
// no value to return if no initial value and an empty array
if (len === 0 && arguments.length === 1) throw new TypeError();
if (arguments.length >= 2) {
var rv = arguments[1];
} else {
do {
if (i in this) {
rv = this[i++];
break;
}
// if array contains no values, no initial value to return
if (++i >= len) throw new TypeError();
} while (true);
}
for (; i < len; i++) {
if (i in this) {
rv = fun.call(null, rv, this[i], i, this);
}
}
return rv;
};
}
if (!Array.prototype.indexOf) {
Array.prototype.indexOf = function (value /*, fromIndex */ ) {
var length = this.length;
var i = arguments[1] || 0;
if (!length) return -1;
if (i >= length) return -1;
if (i < 0) i += length;
for (; i < length; i++) {
if (!Object.prototype.hasOwnProperty.call(this, i)) { continue }
if (value === this[i]) return i;
}
return -1;
};
}
//
// Object
//
if (!Object.keys) {
Object.keys = function (object) {
var keys = [];
for (var name in object) {
if (Object.prototype.hasOwnProperty.call(object, name)) {
keys.push(name);
}
}
return keys;
};
}
//
// String
//
if (!String.prototype.trim) {
String.prototype.trim = function () {
return String(this).replace(/^\s\s*/, '').replace(/\s\s*$/, '');
};
}
var less, tree;
if (typeof(window) === 'undefined') {
less = exports,
tree = require('less/tree');
} else {
less = window.less = {},
tree = window.less.tree = {};
}
//
// less.js - parser
//
// A relatively straight-forward predictive parser.
// There is no tokenization/lexing stage, the input is parsed
// in one sweep.
//
// To make the parser fast enough to run in the browser, several
// optimization had to be made:
//
// - Matching and slicing on a huge input is often cause of slowdowns.
// The solution is to chunkify the input into smaller strings.
// The chunks are stored in the `chunks` var,
// `j` holds the current chunk index, and `current` holds
// the index of the current chunk in relation to `input`.
// This gives us an almost 4x speed-up.
//
// - In many cases, we don't need to match individual tokens;
// for example, if a value doesn't hold any variables, operations
// or dynamic references, the parser can effectively 'skip' it,
// treating it as a literal.
// An example would be '1px solid #000' - which evaluates to itself,
// we don't need to know what the individual components are.
// The drawback, of course is that you don't get the benefits of
// syntax-checking on the CSS. This gives us a 50% speed-up in the parser,
// and a smaller speed-up in the code-gen.
//
//
// Token matching is done with the `$` function, which either takes
// a terminal string or regexp, or a non-terminal function to call.
// It also takes care of moving all the indices forwards.
//
//
less.Parser = function Parser(env) {
var input, // LeSS input string
i, // current index in `input`
j, // current chunk
temp, // temporarily holds a chunk's state, for backtracking
memo, // temporarily holds `i`, when backtracking
furthest, // furthest index the parser has gone to
chunks, // chunkified input
current, // index of current chunk, in `input`
parser;
var that = this;
// This function is called after all files
// have been imported through `@import`.
var finish = function () {};
var imports = this.imports = {
paths: env && env.paths || [], // Search paths, when importing
queue: [], // Files which haven't been imported yet
files: {}, // Holds the imported parse trees
push: function (path, callback) {
var that = this;
this.queue.push(path);
//
// Import a file asynchronously
//
less.Parser.importer(path, this.paths, function (root) {
that.queue.splice(that.queue.indexOf(path), 1); // Remove the path from the queue
that.files[path] = root; // Store the root
callback(root);
if (that.queue.length === 0) { finish() } // Call `finish` if we're done importing
});
}
};
function save() { temp = chunks[j], memo = i, current = i }
function restore() { chunks[j] = temp, i = memo, current = i }
function sync() {
if (i > current) {
chunks[j] = chunks[j].slice(i - current);
current = i;
}
}
//
// Parse from a token, regexp or string, and move forward if match
//
function $(tok) {
var match, args, length, c, index, endIndex, k;
//
// Non-terminal
//
if (tok instanceof Function) {
return tok.call(parser.parsers);
//
// Terminal
//
// Either match a single character in the input,
// or match a regexp in the current chunk (chunk[j]).
//
} else if (typeof(tok) === 'string') {
match = input.charAt(i) === tok ? tok : null;
length = 1;
sync ();
// 1. We move to the next chunk, if necessary.
// 2. Set the `lastIndex` to be relative
// to the current chunk, and try to match in it.
// 3. Make sure we matched at `index`. Because we use
// the /g flag, the match could be anywhere in the
// chunk. We have to make sure it's at our previous
// index, which we stored in [2].
//
} else {
sync ();
if (match = tok.exec(chunks[j])) { // 3.
length = match[0].length;
} else {
return null;
}
}
// The match is confirmed, add the match length to `i`,
// and consume any extra white-space characters (' ' || '\n')
// which come after that. The reason for this is that LeSS's
// grammar is mostly white-space insensitive.
//
if (match) {
mem = i += length;
endIndex = i + chunks[j].length - length;
while (i < endIndex) {
c = input.charCodeAt(i);
if (! (c === 32 || c === 10 || c === 9)) { break }
i++;
}
chunks[j] = chunks[j].slice(length + (i - mem));
current = i;
if (chunks[j].length === 0 && j < chunks.length - 1) { j++ }
if(typeof(match) === 'string') {
return match;
} else {
return match.length === 1 ? match[0] : match;
}
}
}
// Same as $(), but don't change the state of the parser,
// just return the match.
function peek(tok) {
if (typeof(tok) === 'string') {
return input.charAt(i) === tok;
} else {
if (tok.test(chunks[j])) {
return true;
} else {
return false;
}
}
}
this.env = env = env || {};
// The optimization level dictates the thoroughness of the parser,
// the lower the number, the less nodes it will create in the tree.
// This could matter for debugging, or if you want to access
// the individual nodes in the tree.
this.optimization = ('optimization' in this.env) ? this.env.optimization : 1;
this.env.filename = this.env.filename || null;
//
// The Parser
//
return parser = {
imports: imports,
//
// Parse an input string into an abstract syntax tree,
// call `callback` when done.
//
parse: function (str, callback) {
var root, start, end, zone, line, lines, buff = [], c, error = null;
i = j = current = furthest = 0;
chunks = [];
input = str.replace(/\r\n/g, '\n');
// Split the input into chunks.
chunks = (function (chunks) {
var j = 0,
skip = /[^"'\{\}\/]+/g,
comment = /\/\*(?:[^*]|\*+[^\/*])*\*+\/|\/\/.*/g,
level = 0,
match,
chunk = chunks[0],
inString;
for (var i = 0, c, cc; i < input.length; i++) {
skip.lastIndex = i;
if (match = skip.exec(input)) {
if (match.index === i) {
i += match[0].length;
chunk.push(match[0]);
}
}
c = input.charAt(i);
comment.lastIndex = i;
if (!inString && c === '/') {
cc = input.charAt(i + 1);
if (cc === '/' || cc === '*') {
if (match = comment.exec(input)) {
if (match.index === i) {
i += match[0].length;
chunk.push(match[0]);
c = input.charAt(i);
}
}
}
}
if (c === '{' && !inString) { level ++;
chunk.push(c);
} else if (c === '}' && !inString) { level --;
chunk.push(c);
chunks[++j] = chunk = [];
} else {
if (c === '"' || c === "'") {
if (!inString) {
inString = c;
} else {
inString = inString === c ? false : inString;
}
}
chunk.push(c);
}
}
if (level > 0) { throw new(Error)("Missing closing '}'") }
return chunks.map(function (c) { return c.join('') });;
})([[]]);
// Start with the primary rule.
// The whole syntax tree is held under a Ruleset node,
// with the `root` property set to true, so no `{}` are
// output. The callback is called when the input is parsed.
root = new(tree.Ruleset)([], $(this.parsers.primary));
root.root = true;
root.toCSS = (function (toCSS) {
var line, lines, column;
return function (options, variables) {
var frames = [];
options = options || {};
//
// Allows setting variables with a hash, so:
//
// `{ color: new(tree.Color)('#f01') }` will become:
//
// new(tree.Rule)('@color',
// new(tree.Value)([
// new(tree.Expression)([
// new(tree.Color)('#f01')
// ])
// ])
// )
//
if (typeof(variables) === 'object' && !Array.isArray(variables)) {
variables = Object.keys(variables).map(function (k) {
var value = variables[k];
if (! (value instanceof tree.Value)) {
if (! (value instanceof tree.Expression)) {
value = new(tree.Expression)([value]);
}
value = new(tree.Value)([value]);
}
return new(tree.Rule)('@' + k, value, false, 0);
});
frames = [new(tree.Ruleset)(null, variables)];
}
try {
var css = toCSS.call(this, [], {
frames: frames,
compress: options.compress || false
});
} catch (e) {
lines = input.split('\n');
line = getLine(e.index);
for (var n = e.index, column = -1;
n >= 0 && input.charAt(n) !== '\n';
n--) { column++ }
throw {
name: "NameError",
message: e.message,
filename: env.filename,
index: e.index,
line: typeof(line) === 'number' ? line + 1 : null,
callLine: e.call && (getLine(e.call) + 1),
callExtract: lines[getLine(e.call)],
stack: e.stack,
column: column,
extract: [
lines[line - 1],
lines[line],
lines[line + 1]
]
};
}
if (options.compress) {
return css.replace(/(\s)+/g, "$1");
} else {
return css;
}
function getLine(index) {
return index ? (input.slice(0, index).match(/\n/g) || "").length : null;
}
};
})(root.toCSS);
// If `i` is smaller than the `input.length - 1`,
// it means the parser wasn't able to parse the whole
// string, so we've got a parsing error.
//
// We try to extract a \n delimited string,
// showing the line where the parse error occured.
// We split it up into two parts (the part which parsed,
// and the part which didn't), so we can color them differently.
if (i < input.length - 1) {
i = furthest;
lines = input.split('\n');
line = (input.slice(0, i).match(/\n/g) || "").length + 1;
for (var n = i, column = -1; n >= 0 && input.charAt(n) !== '\n'; n--) { column++ }
error = {
name: "ParseError",
message: "Syntax Error on line " + line,
filename: env.filename,
line: line,
column: column,
extract: [
lines[line - 2],
lines[line - 1],
lines[line]
]
};
}
if (this.imports.queue.length > 0) {
finish = function () { callback(error, root) };
} else {
callback(error, root);
}
},
//
// Here in, the parsing rules/functions
//
// The basic structure of the syntax tree generated is as follows:
//
// Ruleset -> Rule -> Value -> Expression -> Entity
//
// Here's some LESS code:
//
// .class {
// color: #fff;
// border: 1px solid #000;
// width: @w + 4px;
// > .child {...}
// }
//
// And here's what the parse tree might look like:
//
// Ruleset (Selector '.class', [
// Rule ("color", Value ([Expression [Color #fff]]))
// Rule ("border", Value ([Expression [Dimension 1px][Keyword "solid"][Color #000]]))
// Rule ("width", Value ([Expression [Operation "+" [Variable "@w"][Dimension 4px]]]))
// Ruleset (Selector [Element '>', '.child'], [...])
// ])
//
// In general, most rules will try to parse a token with the `$()` function, and if the return
// value is truly, will return a new node, of the relevant type. Sometimes, we need to check
// first, before parsing, that's when we use `peek()`.
//
parsers: {
//
// The `primary` rule is the *entry* and *exit* point of the parser.
// The rules here can appear at any level of the parse tree.
//
// The recursive nature of the grammar is an interplay between the `block`
// rule, which represents `{ ... }`, the `ruleset` rule, and this `primary` rule,
// as represented by this simplified grammar:
//
// primary → (ruleset | rule)+
// ruleset → selector+ block
// block → '{' primary '}'
//
// Only at one point is the primary rule not called from the
// block rule: at the root level.
//
primary: function () {
var node, root = [];
while ((node = $(this.mixin.definition) || $(this.rule) || $(this.ruleset) ||
$(this.mixin.call) || $(this.comment) || $(this.directive))
|| $(/^[\s\n]+/)) {
node && root.push(node);
}
return root;
},
// We create a Comment node for CSS comments `/* */`,
// but keep the LeSS comments `//` silent, by just skipping
// over them.
comment: function () {
var comment;
if (input.charAt(i) !== '/') return;
if (input.charAt(i + 1) === '/') {
return new(tree.Comment)($(/^\/\/.*/), true);
} else if (comment = $(/^\/\*(?:[^*]|\*+[^\/*])*\*+\/\n?/)) {
return new(tree.Comment)(comment);
}
},
//
// Entities are tokens which can be found inside an Expression
//
entities: {
//
// A string, which supports escaping " and '
//
// "milky way" 'he\'s the one!'
//
quoted: function () {
var str;
if (input.charAt(i) !== '"' && input.charAt(i) !== "'") return;
if (str = $(/^"((?:[^"\\\r\n]|\\.)*)"|'((?:[^'\\\r\n]|\\.)*)'/)) {
return new(tree.Quoted)(str[0], str[1] || str[2]);
}
},
//
// A catch-all word, such as:
//
// black border-collapse
//
keyword: function () {
var k;
if (k = $(/^[A-Za-z-]+/)) { return new(tree.Keyword)(k) }
},
//
// A function call
//
// rgb(255, 0, 255)
//
// We also try to catch IE's `alpha()`, but let the `alpha` parser
// deal with the details.
//
// The arguments are parsed with the `entities.arguments` parser.
//
call: function () {
var name, args;
if (! (name = /^([\w-]+|%)\(/.exec(chunks[j]))) return;
name = name[1].toLowerCase();
if (name === 'url') { return null }
else { i += name.length + 1 }
if (name === 'alpha') { return $(this.alpha) }
args = $(this.entities.arguments);
if (! $(')')) return;
if (name) { return new(tree.Call)(name, args) }
},
arguments: function () {
var args = [], arg;
while (arg = $(this.expression)) {
args.push(arg);
if (! $(',')) { break }
}
return args;
},
literal: function () {
return $(this.entities.dimension) ||
$(this.entities.color) ||
$(this.entities.quoted);
},
//
// Parse url() tokens
//
// We use a specific rule for urls, because they don't really behave like
// standard function calls. The difference is that the argument doesn't have
// to be enclosed within a string, so it can't be parsed as an Expression.
//
url: function () {
var value;
if (input.charAt(i) !== 'u' || !$(/^url\(/)) return;
value = $(this.entities.quoted) || $(this.entities.variable) || $(/^[-\w%@$\/.&=:;#+?]+/);
if (! $(')')) throw new(Error)("missing closing ) for url()");
return new(tree.URL)((value.value || value instanceof tree.Variable)
? value : new(tree.Anonymous)(value));
},
//
// A Variable entity, such as `@fink`, in
//
// width: @fink + 2px
//
// We use a different parser for variable definitions,
// see `parsers.variable`.
//
variable: function () {
var name, index = i;
if (input.charAt(i) === '@' && (name = $(/^@[\w-]+/))) {
return new(tree.Variable)(name, index);
}
},
//
// A Hexadecimal color
//
// #4F3C2F
//
// `rgb` and `hsl` colors are parsed through the `entities.call` parser.
//
color: function () {
var rgb;
if (input.charAt(i) === '#' && (rgb = $(/^#([a-fA-F0-9]{6}|[a-fA-F0-9]{3})/))) {
return new(tree.Color)(rgb[1]);
}
},
//
// A Dimension, that is, a number and a unit
//
// 0.5em 95%
//
dimension: function () {
var value, c = input.charCodeAt(i);
if ((c > 57 || c < 45) || c === 47) return;
if (value = $(/^(-?\d*\.?\d+)(px|%|em|pc|ex|in|deg|s|ms|pt|cm|mm)?/)) {
return new(tree.Dimension)(value[1], value[2]);
}
}
},
//
// The variable part of a variable definition. Used in the `rule` parser
//
// @fink:
//
variable: function () {
var name;
if (input.charAt(i) === '@' && (name = $(/^(@[\w-]+)\s*:/))) { return name[1] }
},
//
// A font size/line-height shorthand
//
// small/12px
//
// We need to peek first, or we'll match on keywords and dimensions
//
shorthand: function () {
var a, b;
if (! peek(/^[@\w.%-]+\/[@\w.-]+/)) return;
if ((a = $(this.entity)) && $('/') && (b = $(this.entity))) {
return new(tree.Shorthand)(a, b);
}
},
//
// Mixins
//
mixin: {
//
// A Mixin call, with an optional argument list
//
// #mixins > .square(#fff);
// .rounded(4px, black);
// .button;
//
// The `while` loop is there because mixins can be
// namespaced, but we only support the child and descendant
// selector for now.
//
call: function () {
var elements = [], e, c, args, index = i, s = input.charAt(i);
if (s !== '.' && s !== '#') { return }
while (e = $(/^[#.][\w-]+/)) {
elements.push(new(tree.Element)(c, e));
c = $('>');
}
$('(') && (args = $(this.entities.arguments)) && $(')');
if (elements.length > 0 && ($(';') || peek('}'))) {
return new(tree.mixin.Call)(elements, args, index);
}
},
//
// A Mixin definition, with a list of parameters
//
// .rounded (@radius: 2px, @color) {
// ...
// }
//
// Until we have a finer grained state-machine, we have to
// do a look-ahead, to make sure we don't have a mixin call.
// See the `rule` function for more information.
//
// We start by matching `.rounded (`, and then proceed on to
// the argument list, which has optional default values.
// We store the parameters in `params`, with a `value` key,
// if there is a value, such as in the case of `@radius`.
//
// Once we've got our params list, and a closing `)`, we parse
// the `{...}` block.
//
definition: function () {
var name, params = [], match, ruleset, param, value;
if ((input.charAt(i) !== '.' && input.charAt(i) !== '#') ||
peek(/^[^{]*(;|})/)) return;
if (match = $(/^([#.][\w-]+)\s*\(/)) {
name = match[1];
while (param = $(/^@[\w-]+/) || $(this.entities.literal)
|| $(this.entities.keyword)) {
// Variable
if (param[0] === '@') {
if ($(':')) {
if (value = $(this.expression)) {
params.push({ name: param, value: value });
} else {
throw new(Error)("Expected value");
}
} else {
params.push({ name: param });
}
} else {
params.push({ value: param });
}
if (! $(',')) { break }
}
if (! $(')')) throw new(Error)("Expected )");
ruleset = $(this.block);
if (ruleset) {
return new(tree.mixin.Definition)(name, params, ruleset);
}
}
}
},
//
// Entities are the smallest recognized token,
// and can be found inside a rule's value.
//
entity: function () {
return $(this.entities.literal) || $(this.entities.variable) || $(this.entities.url) ||
$(this.entities.call) || $(this.entities.keyword);
},
//
// A Rule terminator. Note that we use `peek()` to check for '}',
// because the `block` rule will be expecting it, but we still need to make sure
// it's there, if ';' was ommitted.
//
end: function () {
return $(';') || peek('}');
},
//
// IE's alpha function
//
// alpha(opacity=88)
//
alpha: function () {
var value;
if (! $(/^opacity=/i)) return;
if (value = $(/^\d+/) || $(this.entities.variable)) {
if (! $(')')) throw new(Error)("missing closing ) for alpha()");
return new(tree.Alpha)(value);
}
},
//
// A Selector Element
//
// div
// + h1
// #socks
// input[type="text"]
//
// Elements are the building blocks for Selectors,
// they are made out of a `Combinator` (see combinator rule),
// and an element name, such as a tag a class, or `*`.
//
element: function () {
var e, t;
c = $(this.combinator);
e = $(/^[.#:]?[\w-]+/) || $('*') || $(this.attribute) || $(/^\([^)@]+\)/);
if (e) { return new(tree.Element)(c, e) }
},
//
// Combinators combine elements together, in a Selector.
//
// Because our parser isn't white-space sensitive, special care
// has to be taken, when parsing the descendant combinator, ` `,
// as it's an empty space. We have to check the previous character
// in the input, to see if it's a ` ` character. More info on how
// we deal with this in *combinator.js*.
//
combinator: function () {
var match, c = input.charAt(i);
if (c === '>' || c === '&' || c === '+' || c === '~') {
i++;
while (input.charAt(i) === ' ') { i++ }
return new(tree.Combinator)(c);
} else if (c === ':' && input.charAt(i + 1) === ':') {
i += 2;
while (input.charAt(i) === ' ') { i++ }
return new(tree.Combinator)('::');
} else if (input.charAt(i - 1) === ' ') {
return new(tree.Combinator)(" ");
} else {
return new(tree.Combinator)(null);
}
},
//
// A CSS Selector
//
// .class > div + h1
// li a:hover
//
// Selectors are made out of one or more Elements, see above.
//
selector: function () {
var sel, e, elements = [], c, match;
while (e = $(this.element)) {
c = input.charAt(i);
elements.push(e)
if (c === '{' || c === '}' || c === ';' || c === ',') { break }
}
if (elements.length > 0) { return new(tree.Selector)(elements) }
},
tag: function () {
return $(/^[a-zA-Z][a-zA-Z-]*[0-9]?/) || $('*');
},
attribute: function () {
var attr = '', key, val, op;
if (! $('[')) return;
if (key = $(/^[a-z-]+/) || $(this.entities.quoted)) {
if ((op = $(/^[|~*$^]?=/)) &&
(val = $(this.entities.quoted) || $(/^[\w-]+/))) {
attr = [key, op, val.toCSS ? val.toCSS() : val].join('');
} else { attr = key }
}
if (! $(']')) return;
if (attr) { return "[" + attr + "]" }
},
//
// The `block` rule is used by `ruleset` and `mixin.definition`.
// It's a wrapper around the `primary` rule, with added `{}`.
//
block: function () {
var content;
if ($('{') && (content = $(this.primary)) && $('}')) {
return content;
}
},
//
// div, .class, body > p {...}
//
ruleset: function () {
var selectors = [], s, rules, match;
save();
if (match = /^([.#: \w-]+)[\s\n]*\{/.exec(chunks[j])) {
i += match[0].length - 1;
selectors = [new(tree.Selector)([new(tree.Element)(null, match[1])])];
} else {
while (s = $(this.selector)) {
selectors.push(s);
if (! $(',')) { break }
}
if (s) $(this.comment);
}
if (selectors.length > 0 && (rules = $(this.block))) {
return new(tree.Ruleset)(selectors, rules);
} else {
// Backtrack
furthest = i;
restore();
}
},
rule: function () {
var value, c = input.charAt(i), important;
save();
if (c === '.' || c === '#' || c === '&') { return }
if (name = $(this.variable) || $(this.property)) {
if ((name.charAt(0) != '@') && (match = /^([^@+\/'"*(;{}-]*);/.exec(chunks[j]))) {
i += match[0].length - 1;
value = new(tree.Anonymous)(match[1]);
} else if (name === "font") {
value = $(this.font);
} else {
value = $(this.value);
}
important = $(this.important);
if (value && $(this.end)) {
return new(tree.Rule)(name, value, important, memo);
} else {
furthest = i;
restore();
}
}
},
//
// An @import directive
//
// @import "lib";
//
// Depending on our environemnt, importing is done differently:
// In the browser, it's an XHR request, in Node, it would be a
// file-system operation. The function used for importing is
// stored in `import`, which we pass to the Import constructor.
//
"import": function () {
var path;
if ($(/^@import\s+/) &&
(path = $(this.entities.quoted) || $(this.entities.url)) &&
$(';')) {
return new(tree.Import)(path, imports);
}
},
//
// A CSS Directive
//
// @charset "utf-8";
//
directive: function () {
var name, value, rules, types;
if (input.charAt(i) !== '@') return;
if (value = $(this['import'])) {
return value;
} else if (name = $(/^@media|@page/)) {
types = $(/^[^{]+/).trim();
if (rules = $(this.block)) {
return new(tree.Directive)(name + " " + types, rules);
}
} else if (name = $(/^@[-a-z]+/)) {
if (name === '@font-face') {
if (rules = $(this.block)) {
return new(tree.Directive)(name, rules);
}
} else if ((value = $(this.entity)) && $(';')) {
return new(tree.Directive)(name, value);
}
}
},
font: function () {
var value = [], expression = [], weight, shorthand, font, e;
while (e = $(this.shorthand) || $(this.entity)) {
expression.push(e);
}
value.push(new(tree.Expression)(expression));
if ($(',')) {
while (e = $(this.expression)) {
value.push(e);
if (! $(',')) { break }
}
}
return new(tree.Value)(value);
},
//
// A Value is a comma-delimited list of Expressions
//
// font-family: Baskerville, Georgia, serif;
//
// In a Rule, a Value represents everything after the `:`,
// and before the `;`.
//
value: function () {
var e, expressions = [], important;
while (e = $(this.expression)) {
expressions.push(e);
if (! $(',')) { break }
}
if (expressions.length > 0) {
return new(tree.Value)(expressions);
}
},
important: function () {
if (input.charAt(i) === '!') {
return $(/^! *important/);
}
},
sub: function () {
var e;
if ($('(') && (e = $(this.expression)) && $(')')) {
return e;
}
},
multiplication: function () {
var m, a, op, operation;
if (m = $(this.operand)) {
while ((op = ($('/') || $('*'))) && (a = $(this.operand))) {
operation = new(tree.Operation)(op, [operation || m, a]);
}
return operation || m;
}
},
addition: function () {
var m, a, op, operation;
if (m = $(this.multiplication)) {
while ((op = $(/^[-+]\s+/) || (input.charAt(i - 1) != ' ' && ($('+') || $('-')))) &&
(a = $(this.multiplication))) {
operation = new(tree.Operation)(op, [operation || m, a]);
}
return operation || m;
}
},
//
// An operand is anything that can be part of an operation,
// such as a Color, or a Variable
//
operand: function () {
return $(this.sub) || $(this.entities.dimension) ||
$(this.entities.color) || $(this.entities.variable) ||
$(this.entities.call);
},
//
// Expressions either represent mathematical operations,
// or white-space delimited Entities.
//
// 1px solid black
// @var * 2
//
expression: function () {
var e, delim, entities = [], d;
while (e = $(this.addition) || $(this.entity)) {
entities.push(e);
}
if (entities.length > 0) {
return new(tree.Expression)(entities);
}
},
property: function () {
var name;
if (name = $(/^(\*?-?[-a-z_0-9]+)\s*:/)) {
return name[1];
}
}
}
};
};
if (typeof(window) !== 'undefined') {
//
// Used by `@import` directives
//
less.Parser.importer = function (path, paths, callback) {
if (path[0] !== '/' && paths.length > 0) {
path = paths[0] + path;
}
// We pass `true` as 3rd argument, to force the reload of the import.
// This is so we can get the syntax tree as opposed to just the CSS output,
// as we need this to evaluate the current stylesheet.
loadStyleSheet({ href: path, title: path }, callback, true);
};
}
(function (tree) {
tree.functions = {
rgb: function (r, g, b) {
return this.rgba(r, g, b, 1.0);
},
rgba: function (r, g, b, a) {
var rgb = [r, g, b].map(function (c) { return number(c) }),
a = number(a);
return new(tree.Color)(rgb, a);
},
hsl: function (h, s, l) {
return this.hsla(h, s, l, 1.0);
},
hsla: function (h, s, l, a) {
h = (number(h) % 360) / 360;
s = number(s); l = number(l); a = number(a);
var m2 = l <= 0.5 ? l * (s + 1) : l + s - l * s;
var m1 = l * 2 - m2;
return this.rgba(hue(h + 1/3) * 255,
hue(h) * 255,
hue(h - 1/3) * 255,
a);
function hue(h) {
h = h < 0 ? h + 1 : (h > 1 ? h - 1 : h);
if (h * 6 < 1) return m1 + (m2 - m1) * h * 6;
else if (h * 2 < 1) return m2;
else if (h * 3 < 2) return m1 + (m2 - m1) * (2/3 - h) * 6;
else return m1;
}
},
hue: function (color) {
return new(tree.Dimension)(Math.round(color.toHSL().h));
},
saturation: function (color) {
return new(tree.Dimension)(Math.round(color.toHSL().s * 100), '%');
},
lightness: function (color) {
return new(tree.Dimension)(Math.round(color.toHSL().l * 100), '%');
},
alpha: function (color) {
return new(tree.Dimension)(color.toHSL().a);
},
saturate: function (color, amount) {
var hsl = color.toHSL();
hsl.s += amount.value / 100;
hsl.s = clamp(hsl.s);
return hsla(hsl);
},
desaturate: function (color, amount) {
var hsl = color.toHSL();
hsl.s -= amount.value / 100;
hsl.s = clamp(hsl.s);
return hsla(hsl);
},
lighten: function (color, amount) {
var hsl = color.toHSL();
hsl.l += amount.value / 100;
hsl.l = clamp(hsl.l);
return hsla(hsl);
},
darken: function (color, amount) {
var hsl = color.toHSL();
hsl.l -= amount.value / 100;
hsl.l = clamp(hsl.l);
return hsla(hsl);
},
spin: function (color, amount) {
var hsl = color.toHSL();
var hue = (hsl.h + amount.value) % 360;
hsl.h = hue < 0 ? 360 + hue : hue;
return hsla(hsl);
},
greyscale: function (color) {
return this.desaturate(color, new(tree.Dimension)(100));
},
e: function (str) {
return new(tree.Anonymous)(str);
},
'%': function (quoted /* arg, arg, ...*/) {
var args = Array.prototype.slice.call(arguments, 1),
str = quoted.content;
for (var i = 0; i < args.length; i++) {
str = str.replace(/%s/, args[i].content)
.replace(/%[da]/, args[i].toCSS());
}
str = str.replace(/%%/g, '%');
return new(tree.Quoted)('"' + str + '"', str);
}
};
function hsla(hsla) {
return tree.functions.hsla(hsla.h, hsla.s, hsla.l, hsla.a);
}
function number(n) {
if (n instanceof tree.Dimension) {
return parseFloat(n.unit == '%' ? n.value / 100 : n.value);
} else if (typeof(n) === 'number') {
return n;
} else {
throw {
error: "RuntimeError",
message: "color functions take numbers as parameters"
};
}
}
function clamp(val) {
return Math.min(1, Math.max(0, val));
}
})(require('less/tree'));
(function (tree) {
tree.Alpha = function (val) {
this.value = val;
};
tree.Alpha.prototype = {
toCSS: function () {
return "alpha(opacity=" +
(this.value.toCSS ? this.value.toCSS() : this.value) + ")";
},
eval: function () { return this }
};
})(require('less/tree'));
(function (tree) {
tree.Anonymous = function (string) {
this.value = string.content || string;
};
tree.Anonymous.prototype = {
toCSS: function () {
return this.value;
},
eval: function () { return this }
};
})(require('less/tree'));
(function (tree) {
//
// A function call node.
//
tree.Call = function (name, args) {
this.name = name;
this.args = args;
};
tree.Call.prototype = {
//
// When evaluating a function call,
// we either find the function in `tree.functions` [1],
// in which case we call it, passing the evaluated arguments,
// or we simply print it out as it appeared originally [2].
//
// The *functions.js* file contains the built-in functions.
//
// The reason why we evaluate the arguments, is in the case where
// we try to pass a variable to a function, like: `saturate(@color)`.
// The function should receive the value, not the variable.
//
eval: function (env) {
var args = this.args.map(function (a) { return a.eval(env) });
if (this.name in tree.functions) { // 1.
return tree.functions[this.name].apply(tree.functions, args);
} else { // 2.
return new(tree.Anonymous)(this.name +
"(" + args.map(function (a) { return a.toCSS() }).join(', ') + ")");
}
},
toCSS: function (env) {
return this.eval(env).toCSS();
}
};
})(require('less/tree'));
(function (tree) {
//
// RGB Colors - #ff0014, #eee
//
tree.Color = function (rgb, a) {
//
// The end goal here, is to parse the arguments
// into an integer triplet, such as `128, 255, 0`
//
// This facilitates operations and conversions.
//
if (Array.isArray(rgb)) {
this.rgb = rgb;
} else if (rgb.length == 6) {
this.rgb = rgb.match(/.{2}/g).map(function (c) {
return parseInt(c, 16);
});
} else {
this.rgb = rgb.split('').map(function (c) {
return parseInt(c + c, 16);
});
}
this.alpha = typeof(a) === 'number' ? a : 1;
};
tree.Color.prototype = {
eval: function () { return this },
//
// If we have some transparency, the only way to represent it
// is via `rgba`. Otherwise, we use the hex representation,
// which has better compatibility with older browsers.
// Values are capped between `0` and `255`, rounded and zero-padded.
//
toCSS: function () {
if (this.alpha < 1.0) {
return "rgba(" + this.rgb.map(function (c) {
return Math.round(c);
}).concat(this.alpha).join(', ') + ")";
} else {
return '#' + this.rgb.map(function (i) {
i = Math.round(i);
i = (i > 255 ? 255 : (i < 0 ? 0 : i)).toString(16);
return i.length === 1 ? '0' + i : i;
}).join('');
}
},
//
// Operations have to be done per-channel, if not,
// channels will spill onto each other. Once we have
// our result, in the form of an integer triplet,
// we create a new Color node to hold the result.
//
operate: function (op, other) {
var result = [];
if (! (other instanceof tree.Color)) {
other = other.toColor();
}
for (var c = 0; c < 3; c++) {
result[c] = tree.operate(op, this.rgb[c], other.rgb[c]);
}
return new(tree.Color)(result);
},
toHSL: function () {
var r = this.rgb[0] / 255,
g = this.rgb[1] / 255,
b = this.rgb[2] / 255,
a = this.alpha;
var max = Math.max(r, g, b), min = Math.min(r, g, b);
var h, s, l = (max + min) / 2, d = max - min;
if (max === min) {
h = s = 0;
} else {
s = l > 0.5 ? d / (2 - max - min) : d / (max + min);
switch (max) {
case r: h = (g - b) / d + (g < b ? 6 : 0); break;
case g: h = (b - r) / d + 2; break;
case b: h = (r - g) / d + 4; break;
}
h /= 6;
}
return { h: h * 360, s: s, l: l, a: a };
}
};
})(require('less/tree'));
(function (tree) {
tree.Comment = function (value, silent) {
this.value = value;
this.silent = !!silent;
};
tree.Comment.prototype = {
toCSS: function (env) {
return env.compress ? '' : this.value;
},
eval: function () { return this }
};
})(require('less/tree'));
(function (tree) {
//
// A number with a unit
//
tree.Dimension = function (value, unit) {
this.value = parseFloat(value);
this.unit = unit || null;
};
tree.Dimension.prototype = {
eval: function () { return this },
toColor: function () {
return new(tree.Color)([this.value, this.value, this.value]);
},
toCSS: function () {
var css = this.value + this.unit;
return css;
},
// In an operation between two Dimensions,
// we default to the first Dimension's unit,
// so `1px + 2em` will yield `3px`.
// In the future, we could implement some unit
// conversions such that `100cm + 10mm` would yield
// `101cm`.
operate: function (op, other) {
return new(tree.Dimension)
(tree.operate(op, this.value, other.value),
this.unit || other.unit);
}
};
})(require('less/tree'));
(function (tree) {
tree.Directive = function (name, value) {
this.name = name;
if (Array.isArray(value)) {
this.ruleset = new(tree.Ruleset)([], value);
} else {
this.value = value;
}
};
tree.Directive.prototype = {
toCSS: function (ctx, env) {
if (this.ruleset) {
this.ruleset.root = true;
return this.name + (env.compress ? '{' : ' {\n ') +
this.ruleset.toCSS(ctx, env).trim().replace(/\n/g, '\n ') +
(env.compress ? '}': '\n}\n');
} else {
return this.name + ' ' + this.value.toCSS() + ';\n';
}
},
eval: function (env) {
env.frames.unshift(this);
this.ruleset && this.ruleset.eval(env);
env.frames.shift();
return this;
},
variable: function (name) { return tree.Ruleset.prototype.variable.call(this.ruleset, name) },
find: function () { return tree.Ruleset.prototype.find.apply(this.ruleset, arguments) },
rulesets: function () { return tree.Ruleset.prototype.rulesets.apply(this.ruleset) }
};
})(require('less/tree'));
(function (tree) {
tree.Element = function (combinator, value) {
this.combinator = combinator instanceof tree.Combinator ?
combinator : new(tree.Combinator)(combinator);
this.value = value.trim();
};
tree.Element.prototype.toCSS = function (env) {
return this.combinator.toCSS(env || {}) + this.value;
};
tree.Combinator = function (value) {
if (value === ' ') {
this.value = ' ';
} else {
this.value = value ? value.trim() : "";
}
};
tree.Combinator.prototype.toCSS = function (env) {
return {
'' : '',
' ' : ' ',
'&' : '',
':' : ' :',
'::': '::',
'+' : env.compress ? '+' : ' + ',
'~' : env.compress ? '~' : ' ~ ',
'>' : env.compress ? '>' : ' > '
}[this.value];
};
})(require('less/tree'));
(function (tree) {
tree.Expression = function (value) { this.value = value };
tree.Expression.prototype = {
eval: function (env) {
if (this.value.length > 1) {
return new(tree.Expression)(this.value.map(function (e) {
return e.eval(env);
}));
} else {
return this.value[0].eval(env);
}
},
toCSS: function (env) {
return this.value.map(function (e) {
return e.toCSS(env);
}).join(' ');
}
};
})(require('less/tree'));
(function (tree) {
//
// CSS @import node
//
// The general strategy here is that we don't want to wait
// for the parsing to be completed, before we start importing
// the file. That's because in the context of a browser,
// most of the time will be spent waiting for the server to respond.
//
// On creation, we push the import path to our import queue, though
// `import,push`, we also pass it a callback, which it'll call once
// the file has been fetched, and parsed.
//
tree.Import = function (path, imports) {
var that = this;
this._path = path;
// The '.less' extension is optional
if (path instanceof tree.Quoted) {
this.path = /\.(le?|c)ss$/.test(path.content) ? path.content : path.content + '.less';
} else {
this.path = path.value.content || path.value;
}
this.css = /css$/.test(this.path);
// Only pre-compile .less files
if (! this.css) {
imports.push(this.path, function (root) {
if (! root) {
throw new(Error)("Error parsing " + that.path);
}
that.root = root;
});
}
};
//
// The actual import node doesn't return anything, when converted to CSS.
// The reason is that it's used at the evaluation stage, so that the rules
// it imports can be treated like any other rules.
//
// In `eval`, we make sure all Import nodes get evaluated, recursively, so
// we end up with a flat structure, which can easily be imported in the parent
// ruleset.
//
tree.Import.prototype = {
toCSS: function () {
if (this.css) {
return "@import " + this._path.toCSS() + ';\n';
} else {
return "";
}
},
eval: function () {
if (this.css) {
return this;
} else {
for (var i = 0; i < this.root.rules.length; i++) {
if (this.root.rules[i] instanceof tree.Import) {
Array.prototype
.splice
.apply(this.root.rules,
[i, 1].concat(this.root.rules[i].eval()));
}
}
return this.root.rules;
}
}
};
})(require('less/tree'));
(function (tree) {
tree.Keyword = function (value) { this.value = value };
tree.Keyword.prototype = {
eval: function () { return this },
toCSS: function () { return this.value }
};
})(require('less/tree'));
(function (tree) {
tree.mixin = {};
tree.mixin.Call = function (elements, args, index) {
this.selector = new(tree.Selector)(elements);
this.arguments = args;
this.index = index;
};
tree.mixin.Call.prototype = {
eval: function (env) {
var mixins, rules = [], match = false;
for (var i = 0; i < env.frames.length; i++) {
if ((mixins = env.frames[i].find(this.selector)).length > 0) {
for (var m = 0; m < mixins.length; m++) {
if (mixins[m].match(this.arguments, env)) {
try {
Array.prototype.push.apply(
rules, mixins[m].eval(env, this.arguments).rules);
match = true;
} catch (e) {
throw { message: e.message, index: e.index, stack: e.stack, call: this.index };
}
}
}
if (match) {
return rules;
} else {
throw { message: 'No matching definition was found for `' +
this.selector.toCSS().trim() + '(' +
this.arguments.map(function (a) {
return a.toCSS();
}).join(', ') + ")`",
index: this.index };
}
}
}
throw { message: this.selector.toCSS().trim() + " is undefined",
index: this.index };
}
};
tree.mixin.Definition = function (name, params, rules) {
this.name = name;
this.selectors = [new(tree.Selector)([new(tree.Element)(null, name)])];
this.params = params;
this.arity = params.length;
this.rules = rules;
this._lookups = {};
this.required = params.reduce(function (count, p) {
if (p.name && !p.value) { return count + 1 }
else { return count }
}, 0);
this.parent = tree.Ruleset.prototype;
this.frames = [];
};
tree.mixin.Definition.prototype = {
toCSS: function () { return "" },
variable: function (name) { return this.parent.variable.call(this, name) },
find: function () { return this.parent.find.apply(this, arguments) },
rulesets: function () { return this.parent.rulesets.apply(this) },
eval: function (env, args) {
var frame = new(tree.Ruleset)(null, []), context;
for (var i = 0, val; i < this.params.length; i++) {
if (this.params[i].name) {
if (val = (args && args[i]) || this.params[i].value) {
frame.rules.unshift(new(tree.Rule)(this.params[i].name, val.eval(env)));
} else {
throw { message: "wrong number of arguments for " + this.name +
' (' + args.length + ' for ' + this.arity + ')' };
}
}
}
return new(tree.Ruleset)(null, this.rules.slice(0)).eval({
frames: [this, frame].concat(this.frames, env.frames)
});
},
match: function (args, env) {
var argsLength = (args && args.length) || 0;
if (argsLength < this.required) {
return false;
}
for (var i = 0; i < Math.min(argsLength, this.arity); i++) {
if (!this.params[i].name) {
if (args[i].wildcard) { continue }
else if (args[i].eval(env).toCSS() != this.params[i].value.eval(env).toCSS()) {
return false;
}
}
}
return true;
}
};
})(require('less/tree'));
(function (tree) {
tree.Operation = function (op, operands) {
this.op = op.trim();
this.operands = operands;
};
tree.Operation.prototype.eval = function (env) {
var a = this.operands[0].eval(env),
b = this.operands[1].eval(env),
temp;
if (a instanceof tree.Dimension && b instanceof tree.Color) {
if (this.op === '*' || this.op === '+') {
temp = b, b = a, a = temp;
} else {
throw { name: "OperationError",
message: "Can't substract or divide a color from a number" };
}
}
return a.operate(this.op, b);
};
tree.operate = function (op, a, b) {
switch (op) {
case '+': return a + b;
case '-': return a - b;
case '*': return a * b;
case '/': return a / b;
}
};
})(require('less/tree'));
(function (tree) {
tree.Quoted = function (value, content) {
this.value = value;
this.content = content;
};
tree.Quoted.prototype = {
toCSS: function () {
return this.value;
},
eval: function () {
return this;
}
};
})(require('less/tree'));
(function (tree) {
tree.Rule = function (name, value, important, index) {
this.name = name;
this.value = (value instanceof tree.Value) ? value : new(tree.Value)([value]);
this.important = important ? ' ' + important.trim() : '';
this.index = index;
if (name.charAt(0) === '@') {
this.variable = true;
} else { this.variable = false }
};
tree.Rule.prototype.toCSS = function (env) {
if (this.variable) { return "" }
else {
return this.name + (env.compress ? ':' : ': ') +
this.value.toCSS(env) +
this.important + ";";
}
};
tree.Rule.prototype.eval = function (context) {
return new(tree.Rule)(this.name, this.value.eval(context), this.important, this.index);
};
tree.Shorthand = function (a, b) {
this.a = a;
this.b = b;
};
tree.Shorthand.prototype = {
toCSS: function (env) {
return this.a.toCSS(env) + "/" + this.b.toCSS(env);
},
eval: function () { return this }
};
})(require('less/tree'));
(function (tree) {
tree.Ruleset = function (selectors, rules) {
this.selectors = selectors;
this.rules = rules;
this._lookups = {};
};
tree.Ruleset.prototype = {
eval: function (env) {
if (this.evaled) { return this }
// push the current ruleset to the frames stack
env.frames.unshift(this);
// Store the frames around mixin definitions,
// so they can be evaluated like closures when the time comes.
for (var i = 0; i < this.rules.length; i++) {
if (this.rules[i] instanceof tree.mixin.Definition) {
this.rules[i].frames = env.frames.slice(0);
}
}
// Evaluate imports
if (this.root) {
for (var i = 0; i < this.rules.length; i++) {
if (this.rules[i] instanceof tree.Import) {
Array.prototype.splice
.apply(this.rules, [i, 1].concat(this.rules[i].eval(env)));
}
}
}
// Evaluate mixin calls.
for (var i = 0; i < this.rules.length; i++) {
if (this.rules[i] instanceof tree.mixin.Call) {
Array.prototype.splice
.apply(this.rules, [i, 1].concat(this.rules[i].eval(env)));
}
}
// Evaluate everything else
for (var i = 0, rule; i < this.rules.length; i++) {
rule = this.rules[i];
if (! (rule instanceof tree.mixin.Definition)) {
this.rules[i] = rule.eval ? rule.eval(env) : rule;
}
}
this.evaled = true;
// Pop the stack
env.frames.shift();
return this;
},
match: function (args) {
return !args || args.length === 0;
},
variable: function (name) {
if (this._variables) { return this._variables[name] }
else {
return (this._variables = this.rules.reduce(function (hash, r) {
if (r instanceof tree.Rule && r.variable === true) {
hash[r.name] = r;
}
return hash;
}, {}))[name];
}
},
rulesets: function () {
if (this._rulesets) { return this._rulesets }
else {
return this._rulesets = this.rules.filter(function (r) {
return (r instanceof tree.Ruleset) || (r instanceof tree.mixin.Definition);
});
}
},
find: function (selector, self) {
self = self || this;
var rules = [], rule, match,
key = selector.toCSS();
if (key in this._lookups) { return this._lookups[key] }
this.rulesets().forEach(function (rule) {
if (rule !== self) {
for (var j = 0; j < rule.selectors.length; j++) {
if (match = selector.match(rule.selectors[j])) {
if (selector.elements.length > 1) {
Array.prototype.push.apply(rules, rule.find(
new(tree.Selector)(selector.elements.slice(1)), self));
} else {
rules.push(rule);
}
break;
}
}
}
});
return this._lookups[key] = rules;
},
//
// Entry point for code generation
//
// `context` holds an array of arrays.
//
toCSS: function (context, env) {
var css = [], // The CSS output
rules = [], // node.Rule instances
rulesets = [], // node.Ruleset instances
paths = [], // Current selectors
selector, // The fully rendered selector
rule;
if (! this.root) {
if (context.length === 0) {
paths = this.selectors.map(function (s) { return [s] });
} else {
for (var s = 0; s < this.selectors.length; s++) {
for (var c = 0; c < context.length; c++) {
paths.push(context[c].concat([this.selectors[s]]));
}
}
}
}
this.eval(env);
// Compile rules and rulesets
for (var i = 0; i < this.rules.length; i++) {
rule = this.rules[i];
if (rule.rules || (rule instanceof tree.Directive)) {
rulesets.push(rule.toCSS(paths, env));
} else if (rule instanceof tree.Comment) {
if (!rule.silent) {
if (this.root) {
rulesets.push(rule.toCSS(env));
} else {
rules.push(rule.toCSS(env));
}
}
} else {
if (rule.toCSS && !rule.variable) {
rules.push(rule.toCSS(env));
} else if (rule.value && !rule.variable) {
rules.push(rule.value.toString());
}
}
}
rulesets = rulesets.join('');
// If this is the root node, we don't render
// a selector, or {}.
// Otherwise, only output if this ruleset has rules.
if (this.root) {
css.push(rules.join(env.compress ? '' : '\n'));
} else {
if (rules.length > 0) {
selector = paths.map(function (p) {
return p.map(function (s) {
return s.toCSS(env);
}).join('').trim();
}).join(env.compress ? ',' : (paths.length > 3 ? ',\n' : ', '));
css.push(selector,
(env.compress ? '{' : ' {\n ') +
rules.join(env.compress ? '' : '\n ') +
(env.compress ? '}' : '\n}\n'));
}
}
css.push(rulesets);
return css.join('') + (env.compress ? '\n' : '');
}
};
})(require('less/tree'));
(function (tree) {
tree.Selector = function (elements) {
this.elements = elements;
if (this.elements[0].combinator.value === "") {
this.elements[0].combinator.value = ' ';
}
};
tree.Selector.prototype.match = function (other) {
if (this.elements[0].value === other.elements[0].value) {
return true;
} else {
return false;
}
};
tree.Selector.prototype.toCSS = function (env) {
if (this._css) { return this._css }
return this._css = this.elements.map(function (e) {
if (typeof(e) === 'string') {
return ' ' + e.trim();
} else {
return e.toCSS(env);
}
}).join('');
};
})(require('less/tree'));
(function (tree) {
tree.URL = function (val) {
this.value = val;
};
tree.URL.prototype = {
toCSS: function () {
return "url(" + this.value.toCSS() + ")";
},
eval: function (ctx) {
this.value = this.value.eval(ctx);
return this;
}
};
})(require('less/tree'));
(function (tree) {
tree.Value = function (value) {
this.value = value;
this.is = 'value';
};
tree.Value.prototype = {
eval: function (env) {
if (this.value.length === 1) {
return this.value[0].eval(env);
} else {
return new(tree.Value)(this.value.map(function (v) {
return v.eval(env);
}));
}
},
toCSS: function (env) {
return this.value.map(function (e) {
return e.toCSS(env);
}).join(env.compress ? ',' : ', ');
}
};
})(require('less/tree'));
(function (tree) {
tree.Variable = function (name, index) { this.name = name, this.index = index };
tree.Variable.prototype = {
eval: function (env) {
var variable, v, name = this.name;
if (variable = tree.find(env.frames, function (frame) {
if (v = frame.variable(name)) {
return v.value.eval(env);
}
})) { return variable }
else {
throw { message: "variable " + this.name + " is undefined",
index: this.index };
}
}
};
})(require('less/tree'));
require('less/tree').find = function (obj, fun) {
for (var i = 0, r; i < obj.length; i++) {
if (r = fun.call(obj, obj[i])) { return r }
}
return null;
};
//
// browser.js - client-side engine
//
var isFileProtocol = (location.protocol === 'file:' ||
location.protocol === 'chrome:' ||
location.protocol === 'resource:');
less.env = location.hostname == '127.0.0.1' ||
location.hostname == '0.0.0.0' ||
location.hostname == 'localhost' ||
location.port.length > 0 ||
isFileProtocol ? 'development'
: 'production';
// Load styles asynchronously (default: false)
//
// This is set to `false` by default, so that the body
// doesn't start loading before the stylesheets are parsed.
// Setting this to `true` can result in flickering.
//
less.async = false;
// Interval between watch polls
less.poll = isFileProtocol ? 1000 : 1500;
//
// Watch mode
//
less.watch = function () { return this.watchMode = true };
less.unwatch = function () { return this.watchMode = false };
if (less.env === 'development') {
less.optimization = 0;
if (/!watch/.test(location.hash)) {
less.watch();
}
less.watchTimer = setInterval(function () {
if (less.watchMode) {
loadStyleSheets(function (root, sheet, env) {
if (root) {
createCSS(root.toCSS(), sheet, env.lastModified);
}
});
}
}, less.poll);
} else {
less.optimization = 3;
}
var cache;
try {
cache = (typeof(window.localStorage) === 'undefined') ? null : window.localStorage;
} catch (_) {
cache = null;
}
//
// Get all tags with the 'rel' attribute set to "stylesheet/less"
//
var links = document.getElementsByTagName('link');
var typePattern = /^text\/(x-)?less$/;
less.sheets = [];
for (var i = 0; i < links.length; i++) {
if (links[i].rel === 'stylesheet/less' || (links[i].rel.match(/stylesheet/) &&
(links[i].type.match(typePattern)))) {
less.sheets.push(links[i]);
}
}
less.refresh = function (reload) {
var startTime = endTime = new(Date);
loadStyleSheets(function (root, sheet, env) {
if (env.local) {
log("loading " + sheet.href + " from cache.");
} else {
log("parsed " + sheet.href + " successfully.");
createCSS(root.toCSS(), sheet, env.lastModified);
}
log("css for " + sheet.href + " generated in " + (new(Date) - endTime) + 'ms');
(env.remaining === 0) && log("css generated in " + (new(Date) - startTime) + 'ms');
endTime = new(Date);
}, reload);
loadStyles();
};
less.refreshStyles = loadStyles;
less.refresh(less.env === 'development');
function loadStyles() {
var styles = document.getElementsByTagName('style');
for (var i = 0; i < styles.length; i++) {
if (styles[i].type.match(typePattern)) {
new(less.Parser)().parse(styles[i].innerHTML || '', function (e, tree) {
styles[i].type = 'text/css';
styles[i].innerHTML = tree.toCSS();
});
}
}
}
function loadStyleSheets(callback, reload) {
for (var i = 0; i < less.sheets.length; i++) {
loadStyleSheet(less.sheets[i], callback, reload, less.sheets.length - (i + 1));
}
}
function loadStyleSheet(sheet, callback, reload, remaining) {
var href = sheet.href.replace(/\?.*$/, '');
var css = cache && cache.getItem(href);
var timestamp = cache && cache.getItem(href + ':timestamp');
var styles = { css: css, timestamp: timestamp };
xhr(sheet.href, function (data, lastModified) {
if (!reload && styles &&
(new(Date)(lastModified).valueOf() ===
new(Date)(styles.timestamp).valueOf())) {
// Use local copy
createCSS(styles.css, sheet);
callback(null, sheet, { local: true, remaining: remaining });
} else {
// Use remote copy (re-parse)
new(less.Parser)({
optimization: less.optimization,
paths: [href.replace(/[\w\.-]+$/, '')]
}).parse(data, function (e, root) {
if (e) { return error(e, href) }
try {
callback(root, sheet, { local: false, lastModified: lastModified, remaining: remaining });
removeNode(document.getElementById('less-error-message:' + extractId(href)));
} catch (e) {
error(e, href);
}
});
}
}, function (status, url) {
throw new(Error)("Couldn't load " + url+ " (" + status + ")");
});
}
function extractId(href) {
return href.replace(/^[a-z]+:\/\/?[^\/]+/, '') // Remove protocol & domain
.replace(/^\//, '') // Remove root /
.replace(/\?.*$/, '') // Remove query
.replace(/\.[^\/]+$/, '') // Remove file extension
.replace(/[^\w-]+/g, '-'); // Replace illegal characters
}
function createCSS(styles, sheet, lastModified) {
var css;
// Strip the query-string
var href = sheet.href ? sheet.href.replace(/\?.*$/, '') : '';
// If there is no title set, use the filename, minus the extension
var id = 'less:' + (sheet.title || extractId(href));
// If the stylesheet doesn't exist, create a new node
if ((css = document.getElementById(id)) === null) {
css = document.createElement('style');
css.type = 'text/css';
css.media = sheet.media;
css.id = id;
document.getElementsByTagName('head')[0].appendChild(css);
}
if (css.styleSheet) { // IE
try {
css.styleSheet.cssText = styles;
} catch (e) {
throw new(Error)("Couldn't reassign styleSheet.cssText.");
}
} else {
(function (node) {
if (css.childNodes.length > 0) {
if (css.firstChild.nodeValue !== node.nodeValue) {
css.replaceChild(node, css.firstChild);
}
} else {
css.appendChild(node);
}
})(document.createTextNode(styles));
}
// Don't update the local store if the file wasn't modified
if (lastModified && cache) {
log('saving ' + href + ' to cache.');
cache.setItem(href, styles);
cache.setItem(href + ':timestamp', lastModified);
}
}
function xhr(url, callback, errback) {
var xhr = getXMLHttpRequest();
var async = isFileProtocol ? false : less.async;
if (typeof(xhr.overrideMimeType) === 'function') {
xhr.overrideMimeType('text/css');
}
xhr.open('GET', url, async);
xhr.send(null);
if (isFileProtocol) {
if (xhr.status === 0) {
callback(xhr.responseText);
} else {
errback(xhr.status);
}
} else if (async) {
xhr.onreadystatechange = function () {
if (xhr.readyState == 4) {
handleResponse(xhr, callback, errback);
}
};
} else {
handleResponse(xhr, callback, errback);
}
function handleResponse(xhr, callback, errback) {
if (xhr.status >= 200 && xhr.status < 300) {
callback(xhr.responseText,
xhr.getResponseHeader("Last-Modified"));
} else if (typeof(errback) === 'function') {
errback(xhr.status, url);
}
}
}
function getXMLHttpRequest() {
if (window.XMLHttpRequest) {
return new(XMLHttpRequest);
} else {
try {
return new(ActiveXObject)("MSXML2.XMLHTTP.3.0");
} catch (e) {
log("browser doesn't support AJAX.");
return null;
}
}
}
function removeNode(node) {
return node && node.parentNode.removeChild(node);
}
function log(str) {
if (less.env == 'development' && typeof(console) !== "undefined") { console.log('less: ' + str) }
}
function error(e, href) {
var id = 'less-error-message:' + extractId(href);
if (! e.extract) { throw e }
var template = ['