// // Stub out `require` in rhino // function require(arg) { return 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*$/, ''); }; } var less, tree, charset; if (typeof environment === "object" && ({}).toString.call(environment) === "[object Environment]") { // Rhino // Details on how to detect Rhino: https://github.com/ringo/ringojs/issues/88 if (typeof(window) === 'undefined') { less = {} } else { less = window.less = {} } tree = less.tree = {}; less.mode = 'rhino'; } else if (typeof(window) === 'undefined') { // Node.js less = exports, tree = require('./tree'); less.mode = 'node'; } else { // Browser if (typeof(window.less) === 'undefined') { window.less = {} } less = window.less, tree = window.less.tree = {}; less.mode = 'browser'; } // // less.js - parser // // A relatively straight-forward predictive parser. // There is no tokenization/lexing stage, the input is parsed // in one sweep. // // To make the parser fast enough to run in the browser, several // optimization had to be made: // // - Matching and slicing on a huge input is often cause of slowdowns. // The solution is to chunkify the input into smaller strings. // The chunks are stored in the `chunks` var, // `j` holds the current chunk index, and `current` holds // the index of the current chunk in relation to `input`. // This gives us an almost 4x speed-up. // // - In many cases, we don't need to match individual tokens; // for example, if a value doesn't hold any variables, operations // or dynamic references, the parser can effectively 'skip' it, // treating it as a literal. // An example would be '1px solid #000' - which evaluates to itself, // we don't need to know what the individual components are. // The drawback, of course is that you don't get the benefits of // syntax-checking on the CSS. This gives us a 50% speed-up in the parser, // and a smaller speed-up in the code-gen. // // // Token matching is done with the `$` 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; // Top parser on an import tree must be sure there is one "env" // which will then be passed arround by reference. var env = env || { }; // env.contents and files must be passed arround with top env if (!env.contents) { env.contents = {}; } env.rootpath = env.rootpath || ''; // env.rootpath must be initialized to '' if not provided if (!env.files) { env.files = {}; } // This function is called after all files // have been imported through `@import`. var finish = function () {}; var imports = this.imports = { paths: env.paths || [], // Search paths, when importing queue: [], // Files which haven't been imported yet files: env.files, // Holds the imported parse trees contents: env.contents, // Holds the imported file contents mime: env.mime, // MIME type of .less files error: null, // Error in parsing/evaluating an import push: function (path, callback) { var that = this; this.queue.push(path); // // Import a file asynchronously // less.Parser.importer(path, this.paths, function (e, root, fullPath) { that.queue.splice(that.queue.indexOf(path), 1); // Remove the path from the queue var imported = fullPath in that.files; that.files[fullPath] = root; // Store the root if (e && !that.error) { that.error = e } callback(e, root, imported); if (that.queue.length === 0) { finish(that.error) } // Call `finish` if we're done importing }, env); } }; 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; } } function isWhitespace(c) { // Could change to \s? var code = c.charCodeAt(0); return code === 32 || code === 10 || code === 9; } // // Parse from a token, regexp or string, and move forward if match // function $(tok) { var match, args, length, index, 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 (); } else { sync (); if (match = tok.exec(chunks[j])) { 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) { skipWhitespace(length); if(typeof(match) === 'string') { return match; } else { return match.length === 1 ? match[0] : match; } } } function skipWhitespace(length) { var oldi = i, oldj = j, endIndex = i + chunks[j].length, mem = i += length; while (i < endIndex) { if (! isWhitespace(input.charAt(i))) { break } i++; } chunks[j] = chunks[j].slice(length + (i - mem)); current = i; if (chunks[j].length === 0 && j < chunks.length - 1) { j++ } return oldi !== i || oldj !== j; } function expect(arg, msg) { var result = $(arg); if (! result) { error(msg || (typeof(arg) === 'string' ? "expected '" + arg + "' got '" + input.charAt(i) + "'" : "unexpected token")); } else { return result; } } function error(msg, type) { var e = new Error(msg); e.index = i; e.type = type || 'Syntax'; throw e; } // 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; } } } function getInput(e, env) { if (e.filename && env.filename && (e.filename !== env.filename)) { return parser.imports.contents[e.filename]; } else { return input; } } function getLocation(index, input) { for (var n = index, column = -1; n >= 0 && input.charAt(n) !== '\n'; n--) { column++ } return { line: typeof(index) === 'number' ? (input.slice(0, index).match(/\n/g) || "").length : null, column: column }; } function getFileName(e) { if(less.mode === 'browser' || less.mode === 'rhino') return e.filename; else return require('path').resolve(e.filename); } function getDebugInfo(index, inputStream, e) { return { lineNumber: getLocation(index, inputStream).line + 1, fileName: getFileName(e) }; } function LessError(e, env) { var input = getInput(e, env), loc = getLocation(e.index, input), line = loc.line, col = loc.column, lines = input.split('\n'); this.type = e.type || 'Syntax'; this.message = e.message; this.filename = e.filename || env.filename; this.index = e.index; this.line = typeof(line) === 'number' ? line + 1 : null; this.callLine = e.call && (getLocation(e.call, input).line + 1); this.callExtract = lines[getLocation(e.call, input).line]; this.stack = e.stack; this.column = col; this.extract = [ lines[line - 1], lines[line], lines[line + 1] ]; } 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; input = str.replace(/\r\n/g, '\n'); // Remove potential UTF Byte Order Mark input = input.replace(/^\uFEFF/, ''); // Split the input into chunks. chunks = (function (chunks) { var j = 0, skip = /(?:@\{[\w-]+\}|[^"'`\{\}\/\(\)\\])+/g, comment = /\/\*(?:[^*]|\*+[^\/*])*\*+\/|\/\/.*/g, string = /"((?:[^"\\\r\n]|\\.)*)"|'((?:[^'\\\r\n]|\\.)*)'|`((?:[^`]|\\.)*)`/g, level = 0, match, chunk = chunks[0], inParam; for (var i = 0, c, cc; i < input.length;) { 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 = string.lastIndex = i; if (match = string.exec(input)) { if (match.index === i) { i += match[0].length; chunk.push(match[0]); continue; } } if (!inParam && 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]); continue; } } } } switch (c) { case '{': if (! inParam) { level ++; chunk.push(c); break } case '}': if (! inParam) { level --; chunk.push(c); chunks[++j] = chunk = []; break } case '(': if (! inParam) { inParam = true; chunk.push(c); break } case ')': if ( inParam) { inParam = false; chunk.push(c); break } default: chunk.push(c); } i++; } if (level != 0) { error = new(LessError)({ index: i-1, type: 'Parse', message: (level > 0) ? "missing closing `}`" : "missing opening `{`", filename: env.filename }, env); } return chunks.map(function (c) { return c.join('') });; })([[]]); if (error) { return callback(error, env); } // 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. try { root = new(tree.Ruleset)([], $(this.parsers.primary)); root.root = true; } catch (e) { return callback(new(LessError)(e, env)); } root.toCSS = (function (evaluate) { var line, lines, column; return function (options, variables) { var frames = [], importError; 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 = evaluate.call(this, { frames: frames }) .toCSS([], { compress: options.compress || false, dumpLineNumbers: env.dumpLineNumbers }); } catch (e) { throw new(LessError)(e, env); } if ((importError = parser.imports.error)) { // Check if there was an error during importing if (importError instanceof LessError) throw importError; else throw new(LessError)(importError, env); } if (options.yuicompress && less.mode === 'node') { return require('ycssmin').cssmin(css); } else if (options.compress) { return css.replace(/(\s)+/g, "$1"); } else { return css; } }; })(root.eval); // If `i` is smaller than the `input.length - 1`, // it means the parser wasn't able to parse the whole // string, so we've got a parsing error. // // We try to extract a \n delimited string, // showing the line where the parse error occured. // We split it up into two parts (the part which parsed, // and the part which didn't), so we can color them differently. if (i < input.length - 1) { i = furthest; lines = input.split('\n'); line = (input.slice(0, i).match(/\n/g) || "").length + 1; for (var n = i, column = -1; n >= 0 && input.charAt(n) !== '\n'; n--) { column++ } error = { type: "Parse", message: "Syntax Error on line " + line, index: i, filename: env.filename, line: line, column: column, extract: [ lines[line - 2], lines[line - 1], lines[line] ] }; } if (this.imports.queue.length > 0) { finish = function (e) { e = error || e; if (e) callback(e); else callback(null, root); }; } else { callback(error, root); } }, // // Here in, the parsing rules/functions // // The basic structure of the syntax tree generated is as follows: // // Ruleset -> Rule -> Value -> Expression -> Entity // // Here's some LESS code: // // .class { // color: #fff; // border: 1px solid #000; // width: @w + 4px; // > .child {...} // } // // And here's what the parse tree might look like: // // Ruleset (Selector '.class', [ // Rule ("color", Value ([Expression [Color #fff]])) // Rule ("border", Value ([Expression [Dimension 1px][Keyword "solid"][Color #000]])) // Rule ("width", Value ([Expression [Operation "+" [Variable "@w"][Dimension 4px]]])) // Ruleset (Selector [Element '>', '.child'], [...]) // ]) // // In general, most rules will try to parse a token with the `$()` 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, j = i, e; if (input.charAt(j) === '~') { j++, e = true } // Escaped strings if (input.charAt(j) !== '"' && input.charAt(j) !== "'") return; e && $('~'); if (str = $(/^"((?:[^"\\\r\n]|\\.)*)"|'((?:[^'\\\r\n]|\\.)*)'/)) { return new(tree.Quoted)(str[0], str[1] || str[2], e); } }, // // A catch-all word, such as: // // black border-collapse // keyword: function () { var k; if (k = $(/^[_A-Za-z-][_A-Za-z0-9-]*/)) { if (tree.colors.hasOwnProperty(k)) { // detect named color return new(tree.Color)(tree.colors[k].slice(1)); } else { 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, nameLC, args, alpha_ret, index = i; if (! (name = /^([\w-]+|%|progid:[\w\.]+)\(/.exec(chunks[j]))) return; name = name[1]; nameLC = name.toLowerCase(); if (nameLC === 'url') { return null } else { i += name.length } if (nameLC === 'alpha') { alpha_ret = $(this.alpha); if(typeof alpha_ret !== 'undefined') { return alpha_ret; } } $('('); // Parse the '(' and consume whitespace. args = $(this.entities.arguments); if (! $(')')) return; if (name) { return new(tree.Call)(name, args, index, env.filename) } }, arguments: function () { var args = [], arg; while (arg = $(this.entities.assignment) || $(this.expression)) { args.push(arg); if (! $(',')) { break } } return args; }, literal: function () { return $(this.entities.ratio) || $(this.entities.dimension) || $(this.entities.color) || $(this.entities.quoted) || $(this.entities.unicodeDescriptor); }, // Assignments are argument entities for calls. // They are present in ie filter properties as shown below. // // filter: progid:DXImageTransform.Microsoft.Alpha( *opacity=50* ) // assignment: function () { var key, value; if ((key = $(/^\w+(?=\s?=)/i)) && $('=') && (value = $(this.entity))) { return new(tree.Assignment)(key, value); } }, // // Parse url() tokens // // We use a specific rule for urls, because they don't really behave like // standard function calls. The difference is that the argument doesn't have // to be enclosed within a string, so it can't be parsed as an Expression. // url: function () { var value; if (input.charAt(i) !== 'u' || !$(/^url\(/)) return; value = $(this.entities.quoted) || $(this.entities.variable) || $(/^(?:(?:\\[\(\)'"])|[^\(\)'"])+/) || ""; expect(')'); return new(tree.URL)((value.value != null || value instanceof tree.Variable) ? value : new(tree.Anonymous)(value), env.rootpath); }, // // 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, env.filename); } }, // A variable entity useing the protective {} e.g. @{var} variableCurly: function () { var name, curly, index = i; if (input.charAt(i) === '@' && (curly = $(/^@\{([\w-]+)\}/))) { return new(tree.Variable)("@" + curly[1], index, env.filename); } }, // // 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); //Is the first char of the dimension 0-9, '.', '+' or '-' if ((c > 57 || c < 43) || c === 47 || c == 44) return; if (value = $(/^([+-]?\d*\.?\d+)(px|%|em|pc|ex|in|deg|s|ms|pt|cm|mm|rad|grad|turn|dpi|dpcm|dppx|rem|vw|vh|vmin|vm|ch)?/)) { return new(tree.Dimension)(value[1], value[2]); } }, // // A Ratio // // 16/9 // ratio: function () { var value, c = input.charCodeAt(i); if (c > 57 || c < 48) return; if (value = $(/^(\d+\/\d+)/)) { return new(tree.Ratio)(value[1]); } }, // // A unicode descriptor, as is used in unicode-range // // U+0?? or U+00A1-00A9 // unicodeDescriptor: function () { var ud; if (ud = $(/^U\+[0-9a-fA-F?]+(\-[0-9a-fA-F?]+)?/)) { return new(tree.UnicodeDescriptor)(ud[0]); } }, // // JavaScript code to be evaluated // // `window.location.href` // javascript: function () { var str, j = i, e; if (input.charAt(j) === '~') { j++, e = true } // Escaped strings if (input.charAt(j) !== '`') { return } e && $('~'); if (str = $(/^`([^`]*)`/)) { return new(tree.JavaScript)(str[1], i, e); } } }, // // 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; save(); if ((a = $(this.entity)) && $('/') && (b = $(this.entity))) { return new(tree.Shorthand)(a, b); } restore(); }, // // 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, argsSemiColon = [], argsComma = [], args, delim, arg, nameLoop, expressions, isSemiColonSeperated, expressionContainsNamed, index = i, s = input.charAt(i), name, value, important = false; if (s !== '.' && s !== '#') { return } save(); // stop us absorbing part of an invalid selector while (e = $(/^[#.](?:[\w-]|\\(?:[A-Fa-f0-9]{1,6} ?|[^A-Fa-f0-9]))+/)) { elements.push(new(tree.Element)(c, e, i)); c = $('>'); } if ($('(')) { expressions = []; while (arg = $(this.expression)) { nameLoop = null; value = arg; // Variable if (arg.value.length == 1) { var val = arg.value[0]; if (val instanceof tree.Variable) { if ($(':')) { if (expressions.length > 0) { if (isSemiColonSeperated) { error("Cannot mix ; and , as delimiter types"); } expressionContainsNamed = true; } value = expect(this.expression); nameLoop = (name = val.name); } } } expressions.push(value); argsComma.push({ name: nameLoop, value: value }); if ($(',')) { continue; } if ($(';') || isSemiColonSeperated) { if (expressionContainsNamed) { error("Cannot mix ; and , as delimiter types"); } isSemiColonSeperated = true; if (expressions.length > 1) { value = new(tree.Value)(expressions); } argsSemiColon.push({ name: name, value: value }); name = null; expressions = []; expressionContainsNamed = false; } } expect(')'); } args = isSemiColonSeperated ? argsSemiColon : argsComma; if ($(this.important)) { important = true; } if (elements.length > 0 && ($(';') || peek('}'))) { return new(tree.mixin.Call)(elements, args, index, env.filename, important); } restore(); }, // // 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, cond, variadic = false; if ((input.charAt(i) !== '.' && input.charAt(i) !== '#') || peek(/^[^{]*\}/)) return; save(); if (match = $(/^([#.](?:[\w-]|\\(?:[A-Fa-f0-9]{1,6} ?|[^A-Fa-f0-9]))+)\s*\(/)) { name = match[1]; do { $(this.comment); if (input.charAt(i) === '.' && $(/^\.{3}/)) { variadic = true; params.push({ variadic: true }); break; } else if (param = $(this.entities.variable) || $(this.entities.literal) || $(this.entities.keyword)) { // Variable if (param instanceof tree.Variable) { if ($(':')) { value = expect(this.expression, 'expected expression'); params.push({ name: param.name, value: value }); } else if ($(/^\.{3}/)) { params.push({ name: param.name, variadic: true }); variadic = true; break; } else { params.push({ name: param.name }); } } else { params.push({ value: param }); } } else { break; } } while ($(',') || $(';')) // .mixincall("@{a}"); // looks a bit like a mixin definition.. so we have to be nice and restore if (!$(')')) { furthest = i; restore(); } $(this.comment); if ($(/^when/)) { // Guard cond = expect(this.conditions, 'expected condition'); } ruleset = $(this.block); if (ruleset) { return new(tree.mixin.Definition)(name, params, ruleset, cond, variadic); } else { restore(); } } } }, // // 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) || $(this.entities.keyword) ||$(this.entities.javascript) || $(this.comment); }, // // 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)) { expect(')'); 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, v; c = $(this.combinator); e = $(/^(?:\d+\.\d+|\d+)%/) || $(/^(?:[.#]?|:*)(?:[\w-]|[^\x00-\x9f]|\\(?:[A-Fa-f0-9]{1,6} ?|[^A-Fa-f0-9]))+/) || $('*') || $('&') || $(this.attribute) || $(/^\([^()@]+\)/) || $(/^[\.#](?=@)/) || $(this.entities.variableCurly); if (! e) { if ($('(')) { if ((v = ($(this.entities.variableCurly) || $(this.entities.variable) || $(this.selector))) && $(')')) { e = new(tree.Paren)(v); } } } if (e) { return new(tree.Element)(c, e, i) } }, // // Combinators combine elements together, in a Selector. // // Because our parser isn't white-space sensitive, special care // has to be taken, when parsing the descendant combinator, ` `, // as it's an empty space. We have to check the previous character // in the input, to see if it's a ` ` character. More info on how // we deal with this in *combinator.js*. // combinator: function () { var match, c = input.charAt(i); if (c === '>' || c === '+' || c === '~' || c === '|') { i++; while (input.charAt(i).match(/\s/)) { i++ } return new(tree.Combinator)(c); } else if (input.charAt(i - 1).match(/\s/)) { return new(tree.Combinator)(" "); } else { return new(tree.Combinator)(null); } }, // // A CSS Selector // // .class > div + h1 // li a:hover // // Selectors are made out of one or more Elements, see above. // selector: function () { var sel, e, elements = [], c, match; // depreciated, will be removed soon if ($('(')) { sel = $(this.entity); if (!$(')')) { return null; } return new(tree.Selector)([new(tree.Element)('', sel, i)]); } while (e = $(this.element)) { c = input.charAt(i); elements.push(e) if (c === '{' || c === '}' || c === ';' || c === ',' || c === ')') { break } } if (elements.length > 0) { return new(tree.Selector)(elements) } }, attribute: function () { var attr = '', key, val, op; if (! $('[')) return; if (key = $(/^(?:[_A-Za-z0-9-]|\\.)+/) || $(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, debugInfo; save(); if (env.dumpLineNumbers) debugInfo = getDebugInfo(i, input, env); while (s = $(this.selector)) { selectors.push(s); $(this.comment); if (! $(',')) { break } $(this.comment); } if (selectors.length > 0 && (rules = $(this.block))) { var ruleset = new(tree.Ruleset)(selectors, rules, env.strictImports); if (env.dumpLineNumbers) ruleset.debugInfo = debugInfo; return ruleset; } else { // Backtrack furthest = i; restore(); } }, rule: function () { var name, value, c = input.charAt(i), important, match; 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, features, index = i; save(); var dir = $(/^@import(?:-(once))?\s+/); if (dir && (path = $(this.entities.quoted) || $(this.entities.url))) { features = $(this.mediaFeatures); if ($(';')) { return new(tree.Import)(path, imports, features, (dir[1] === 'once'), index, env.rootpath); } } restore(); }, mediaFeature: function () { var e, p, nodes = []; do { if (e = $(this.entities.keyword)) { nodes.push(e); } else if ($('(')) { p = $(this.property); e = $(this.entity); if ($(')')) { if (p && e) { nodes.push(new(tree.Paren)(new(tree.Rule)(p, e, null, i, true))); } else if (e) { nodes.push(new(tree.Paren)(e)); } else { return null; } } else { return null } } } while (e); if (nodes.length > 0) { return new(tree.Expression)(nodes); } }, mediaFeatures: function () { var e, features = []; do { if (e = $(this.mediaFeature)) { features.push(e); if (! $(',')) { break } } else if (e = $(this.entities.variable)) { features.push(e); if (! $(',')) { break } } } while (e); return features.length > 0 ? features : null; }, media: function () { var features, rules, media, debugInfo; if (env.dumpLineNumbers) debugInfo = getDebugInfo(i, input, env); if ($(/^@media/)) { features = $(this.mediaFeatures); if (rules = $(this.block)) { media = new(tree.Media)(rules, features); if(env.dumpLineNumbers) media.debugInfo = debugInfo; return media; } } }, // // A CSS Directive // // @charset "utf-8"; // directive: function () { var name, value, rules, identifier, e, nodes, nonVendorSpecificName, hasBlock, hasIdentifier, hasExpression; if (input.charAt(i) !== '@') return; if (value = $(this['import']) || $(this.media)) { return value; } save(); name = $(/^@[a-z-]+/); if (!name) return; nonVendorSpecificName = name; if (name.charAt(1) == '-' && name.indexOf('-', 2) > 0) { nonVendorSpecificName = "@" + name.slice(name.indexOf('-', 2) + 1); } switch(nonVendorSpecificName) { case "@font-face": hasBlock = true; break; case "@viewport": case "@top-left": case "@top-left-corner": case "@top-center": case "@top-right": case "@top-right-corner": case "@bottom-left": case "@bottom-left-corner": case "@bottom-center": case "@bottom-right": case "@bottom-right-corner": case "@left-top": case "@left-middle": case "@left-bottom": case "@right-top": case "@right-middle": case "@right-bottom": hasBlock = true; break; case "@page": case "@document": case "@supports": case "@keyframes": hasBlock = true; hasIdentifier = true; break; case "@namespace": hasExpression = true; break; } if (hasIdentifier) { name += " " + ($(/^[^{]+/) || '').trim(); } if (hasBlock) { if (rules = $(this.block)) { return new(tree.Directive)(name, rules); } } else { if ((value = hasExpression ? $(this.expression) : $(this.entity)) && $(';')) { var directive = new(tree.Directive)(name, value); if (env.dumpLineNumbers) { directive.debugInfo = getDebugInfo(i, input, env); } return directive; } } restore(); }, 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 = $(this.operand)) { while (!peek(/^\/[*\/]/) && (op = ($('/') || $('*'))) && (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 = $(/^[-+]\s+/) || (!isWhitespace(input.charAt(i - 1)) && ($('+') || $('-')))) && (a = $(this.multiplication))) { operation = new(tree.Operation)(op, [operation || m, a]); } return operation || m; } }, conditions: function () { var a, b, index = i, condition; if (a = $(this.condition)) { while ($(',') && (b = $(this.condition))) { condition = new(tree.Condition)('or', condition || a, b, index); } return condition || a; } }, condition: function () { var a, b, c, op, index = i, negate = false; if ($(/^not/)) { negate = true } expect('('); if (a = $(this.addition) || $(this.entities.keyword) || $(this.entities.quoted)) { if (op = $(/^(?:>=|=<|[<=>])/)) { if (b = $(this.addition) || $(this.entities.keyword) || $(this.entities.quoted)) { c = new(tree.Condition)(op, a, b, index, negate); } else { error('expected expression'); } } else { c = new(tree.Condition)('=', a, new(tree.Keyword)('true'), index, negate); } expect(')'); return $(/^and/) ? new(tree.Condition)('and', c, $(this.condition)) : c; } }, // // An operand is anything that can be part of an operation, // such as a Color, or a Variable // operand: function () { var negate, p = input.charAt(i + 1); if (input.charAt(i) === '-' && (p === '@' || p === '(')) { negate = $('-') } var o = $(this.sub) || $(this.entities.dimension) || $(this.entities.color) || $(this.entities.variable) || $(this.entities.call); return negate ? new(tree.Operation)('*', [new(tree.Dimension)(-1), o]) : o; }, // // 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-z0-9-]+)\s*:/)) { return name[1]; } } } }; }; if (less.mode === 'browser' || less.mode === 'rhino') { // // Used by `@import` directives // less.Parser.importer = function (path, paths, callback, env) { if (!/^([a-z-]+:)?\//.test(path) && 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, type: env.mime, contents: env.contents, files: env.files, rootpath: env.rootpath, entryPath: env.entryPath, relativeUrls: env.relativeUrls }, function (e, root, data, sheet, _, path) { if (e && typeof(env.errback) === "function") { env.errback.call(null, path, paths, callback, env); } else { callback.call(null, e, root, path); } }, 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 scaled(c, 256); }); 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; } }, hsv: function(h, s, v) { return this.hsva(h, s, v, 1.0); }, hsva: function(h, s, v, a) { h = ((number(h) % 360) / 360) * 360; s = number(s); v = number(v); a = number(a); var i, f; i = Math.floor((h / 60) % 6); f = (h / 60) - i; var vs = [v, v * (1 - s), v * (1 - f * s), v * (1 - (1 - f) * s)]; var perm = [[0, 3, 1], [2, 0, 1], [1, 0, 3], [1, 2, 0], [3, 1, 0], [0, 1, 2]]; return this.rgba(vs[perm[i][0]] * 255, vs[perm[i][1]] * 255, vs[perm[i][2]] * 255, a); }, 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), '%'); }, red: function (color) { return new(tree.Dimension)(color.rgb[0]); }, green: function (color) { return new(tree.Dimension)(color.rgb[1]); }, blue: function (color) { return new(tree.Dimension)(color.rgb[2]); }, alpha: function (color) { return new(tree.Dimension)(color.toHSL().a); }, luma: function (color) { return new(tree.Dimension)(Math.round((0.2126 * (color.rgb[0]/255) + 0.7152 * (color.rgb[1]/255) + 0.0722 * (color.rgb[2]/255)) * color.alpha * 100), '%'); }, 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); }, fadein: function (color, amount) { var hsl = color.toHSL(); hsl.a += amount.value / 100; hsl.a = clamp(hsl.a); return hsla(hsl); }, fadeout: function (color, amount) { var hsl = color.toHSL(); hsl.a -= amount.value / 100; hsl.a = clamp(hsl.a); return hsla(hsl); }, fade: function (color, amount) { var hsl = color.toHSL(); hsl.a = amount.value / 100; hsl.a = clamp(hsl.a); 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); }, // // Copyright (c) 2006-2009 Hampton Catlin, Nathan Weizenbaum, and Chris Eppstein // http://sass-lang.com // mix: function (color1, color2, weight) { if (!weight) { weight = new(tree.Dimension)(50); } var p = weight.value / 100.0; var w = p * 2 - 1; var a = color1.toHSL().a - color2.toHSL().a; var w1 = (((w * a == -1) ? w : (w + a) / (1 + w * a)) + 1) / 2.0; var w2 = 1 - w1; var rgb = [color1.rgb[0] * w1 + color2.rgb[0] * w2, color1.rgb[1] * w1 + color2.rgb[1] * w2, color1.rgb[2] * w1 + color2.rgb[2] * w2]; var alpha = color1.alpha * p + color2.alpha * (1 - p); return new(tree.Color)(rgb, alpha); }, greyscale: function (color) { return this.desaturate(color, new(tree.Dimension)(100)); }, contrast: function (color, dark, light, threshold) { // filter: contrast(3.2); // should be kept as is, so check for color if (!color.rgb) { return null; } if (typeof light === 'undefined') { light = this.rgba(255, 255, 255, 1.0); } if (typeof dark === 'undefined') { dark = this.rgba(0, 0, 0, 1.0); } if (typeof threshold === 'undefined') { threshold = 0.43; } else { threshold = threshold.value; } if (((0.2126 * (color.rgb[0]/255) + 0.7152 * (color.rgb[1]/255) + 0.0722 * (color.rgb[2]/255)) * color.alpha) < threshold) { return light; } else { return dark; } }, e: function (str) { return new(tree.Anonymous)(str instanceof tree.JavaScript ? str.evaluated : str); }, escape: function (str) { return new(tree.Anonymous)(encodeURI(str.value).replace(/=/g, "%3D").replace(/:/g, "%3A").replace(/#/g, "%23").replace(/;/g, "%3B").replace(/\(/g, "%28").replace(/\)/g, "%29")); }, '%': function (quoted /* arg, arg, ...*/) { var args = Array.prototype.slice.call(arguments, 1), str = quoted.value; for (var i = 0; i < args.length; i++) { str = str.replace(/%[sda]/i, function(token) { var value = token.match(/s/i) ? args[i].value : args[i].toCSS(); return token.match(/[A-Z]$/) ? encodeURIComponent(value) : value; }); } str = str.replace(/%%/g, '%'); return new(tree.Quoted)('"' + str + '"', str); }, unit: function (val, unit) { return new(tree.Dimension)(val.value, unit ? unit.toCSS() : ""); }, round: function (n, f) { var fraction = typeof(f) === "undefined" ? 0 : f.value; return this._math(function(num) { return num.toFixed(fraction); }, n); }, ceil: function (n) { return this._math(Math.ceil, n); }, floor: function (n) { return this._math(Math.floor, n); }, _math: function (fn, n) { if (n instanceof tree.Dimension) { return new(tree.Dimension)(fn(parseFloat(n.value)), n.unit); } else if (typeof(n) === 'number') { return fn(n); } else { throw { type: "Argument", message: "argument must be a number" }; } }, argb: function (color) { return new(tree.Anonymous)(color.toARGB()); }, percentage: function (n) { return new(tree.Dimension)(n.value * 100, '%'); }, color: function (n) { if (n instanceof tree.Quoted) { return new(tree.Color)(n.value.slice(1)); } else { throw { type: "Argument", message: "argument must be a string" }; } }, iscolor: function (n) { return this._isa(n, tree.Color); }, isnumber: function (n) { return this._isa(n, tree.Dimension); }, isstring: function (n) { return this._isa(n, tree.Quoted); }, iskeyword: function (n) { return this._isa(n, tree.Keyword); }, isurl: function (n) { return this._isa(n, tree.URL); }, ispixel: function (n) { return (n instanceof tree.Dimension) && n.unit === 'px' ? tree.True : tree.False; }, ispercentage: function (n) { return (n instanceof tree.Dimension) && n.unit === '%' ? tree.True : tree.False; }, isem: function (n) { return (n instanceof tree.Dimension) && n.unit === 'em' ? tree.True : tree.False; }, _isa: function (n, Type) { return (n instanceof Type) ? tree.True : tree.False; }, /* Blending modes */ multiply: function(color1, color2) { var r = color1.rgb[0] * color2.rgb[0] / 255; var g = color1.rgb[1] * color2.rgb[1] / 255; var b = color1.rgb[2] * color2.rgb[2] / 255; return this.rgb(r, g, b); }, screen: function(color1, color2) { var r = 255 - (255 - color1.rgb[0]) * (255 - color2.rgb[0]) / 255; var g = 255 - (255 - color1.rgb[1]) * (255 - color2.rgb[1]) / 255; var b = 255 - (255 - color1.rgb[2]) * (255 - color2.rgb[2]) / 255; return this.rgb(r, g, b); }, overlay: function(color1, color2) { var r = color1.rgb[0] < 128 ? 2 * color1.rgb[0] * color2.rgb[0] / 255 : 255 - 2 * (255 - color1.rgb[0]) * (255 - color2.rgb[0]) / 255; var g = color1.rgb[1] < 128 ? 2 * color1.rgb[1] * color2.rgb[1] / 255 : 255 - 2 * (255 - color1.rgb[1]) * (255 - color2.rgb[1]) / 255; var b = color1.rgb[2] < 128 ? 2 * color1.rgb[2] * color2.rgb[2] / 255 : 255 - 2 * (255 - color1.rgb[2]) * (255 - color2.rgb[2]) / 255; return this.rgb(r, g, b); }, softlight: function(color1, color2) { var t = color2.rgb[0] * color1.rgb[0] / 255; var r = t + color1.rgb[0] * (255 - (255 - color1.rgb[0]) * (255 - color2.rgb[0]) / 255 - t) / 255; t = color2.rgb[1] * color1.rgb[1] / 255; var g = t + color1.rgb[1] * (255 - (255 - color1.rgb[1]) * (255 - color2.rgb[1]) / 255 - t) / 255; t = color2.rgb[2] * color1.rgb[2] / 255; var b = t + color1.rgb[2] * (255 - (255 - color1.rgb[2]) * (255 - color2.rgb[2]) / 255 - t) / 255; return this.rgb(r, g, b); }, hardlight: function(color1, color2) { var r = color2.rgb[0] < 128 ? 2 * color2.rgb[0] * color1.rgb[0] / 255 : 255 - 2 * (255 - color2.rgb[0]) * (255 - color1.rgb[0]) / 255; var g = color2.rgb[1] < 128 ? 2 * color2.rgb[1] * color1.rgb[1] / 255 : 255 - 2 * (255 - color2.rgb[1]) * (255 - color1.rgb[1]) / 255; var b = color2.rgb[2] < 128 ? 2 * color2.rgb[2] * color1.rgb[2] / 255 : 255 - 2 * (255 - color2.rgb[2]) * (255 - color1.rgb[2]) / 255; return this.rgb(r, g, b); }, difference: function(color1, color2) { var r = Math.abs(color1.rgb[0] - color2.rgb[0]); var g = Math.abs(color1.rgb[1] - color2.rgb[1]); var b = Math.abs(color1.rgb[2] - color2.rgb[2]); return this.rgb(r, g, b); }, exclusion: function(color1, color2) { var r = color1.rgb[0] + color2.rgb[0] * (255 - color1.rgb[0] - color1.rgb[0]) / 255; var g = color1.rgb[1] + color2.rgb[1] * (255 - color1.rgb[1] - color1.rgb[1]) / 255; var b = color1.rgb[2] + color2.rgb[2] * (255 - color1.rgb[2] - color1.rgb[2]) / 255; return this.rgb(r, g, b); }, average: function(color1, color2) { var r = (color1.rgb[0] + color2.rgb[0]) / 2; var g = (color1.rgb[1] + color2.rgb[1]) / 2; var b = (color1.rgb[2] + color2.rgb[2]) / 2; return this.rgb(r, g, b); }, negation: function(color1, color2) { var r = 255 - Math.abs(255 - color2.rgb[0] - color1.rgb[0]); var g = 255 - Math.abs(255 - color2.rgb[1] - color1.rgb[1]); var b = 255 - Math.abs(255 - color2.rgb[2] - color1.rgb[2]); return this.rgb(r, g, b); }, tint: function(color, amount) { return this.mix(this.rgb(255,255,255), color, amount); }, shade: function(color, amount) { return this.mix(this.rgb(0, 0, 0), color, amount); } }; function hsla(color) { return tree.functions.hsla(color.h, color.s, color.l, color.a); } function scaled(n, size) { if (n instanceof tree.Dimension && n.unit == '%') { return parseFloat(n.value * size / 100); } else { return number(n); } } 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('./tree')); (function (tree) { tree.colors = { 'aliceblue':'#f0f8ff', 'antiquewhite':'#faebd7', 'aqua':'#00ffff', 'aquamarine':'#7fffd4', 'azure':'#f0ffff', 'beige':'#f5f5dc', 'bisque':'#ffe4c4', 'black':'#000000', 'blanchedalmond':'#ffebcd', 'blue':'#0000ff', 'blueviolet':'#8a2be2', 'brown':'#a52a2a', 'burlywood':'#deb887', 'cadetblue':'#5f9ea0', 'chartreuse':'#7fff00', 'chocolate':'#d2691e', 'coral':'#ff7f50', 'cornflowerblue':'#6495ed', 'cornsilk':'#fff8dc', 'crimson':'#dc143c', 'cyan':'#00ffff', 'darkblue':'#00008b', 'darkcyan':'#008b8b', 'darkgoldenrod':'#b8860b', 'darkgray':'#a9a9a9', 'darkgrey':'#a9a9a9', 'darkgreen':'#006400', 'darkkhaki':'#bdb76b', 'darkmagenta':'#8b008b', 'darkolivegreen':'#556b2f', 'darkorange':'#ff8c00', 'darkorchid':'#9932cc', 'darkred':'#8b0000', 'darksalmon':'#e9967a', 'darkseagreen':'#8fbc8f', 'darkslateblue':'#483d8b', 'darkslategray':'#2f4f4f', 'darkslategrey':'#2f4f4f', 'darkturquoise':'#00ced1', 'darkviolet':'#9400d3', 'deeppink':'#ff1493', 'deepskyblue':'#00bfff', 'dimgray':'#696969', 'dimgrey':'#696969', 'dodgerblue':'#1e90ff', 'firebrick':'#b22222', 'floralwhite':'#fffaf0', 'forestgreen':'#228b22', 'fuchsia':'#ff00ff', 'gainsboro':'#dcdcdc', 'ghostwhite':'#f8f8ff', 'gold':'#ffd700', 'goldenrod':'#daa520', 'gray':'#808080', 'grey':'#808080', 'green':'#008000', 'greenyellow':'#adff2f', 'honeydew':'#f0fff0', 'hotpink':'#ff69b4', 'indianred':'#cd5c5c', 'indigo':'#4b0082', 'ivory':'#fffff0', 'khaki':'#f0e68c', 'lavender':'#e6e6fa', 'lavenderblush':'#fff0f5', 'lawngreen':'#7cfc00', 'lemonchiffon':'#fffacd', 'lightblue':'#add8e6', 'lightcoral':'#f08080', 'lightcyan':'#e0ffff', 'lightgoldenrodyellow':'#fafad2', 'lightgray':'#d3d3d3', 'lightgrey':'#d3d3d3', 'lightgreen':'#90ee90', 'lightpink':'#ffb6c1', 'lightsalmon':'#ffa07a', 'lightseagreen':'#20b2aa', 'lightskyblue':'#87cefa', 'lightslategray':'#778899', 'lightslategrey':'#778899', 'lightsteelblue':'#b0c4de', 'lightyellow':'#ffffe0', 'lime':'#00ff00', 'limegreen':'#32cd32', 'linen':'#faf0e6', 'magenta':'#ff00ff', 'maroon':'#800000', 'mediumaquamarine':'#66cdaa', 'mediumblue':'#0000cd', 'mediumorchid':'#ba55d3', 'mediumpurple':'#9370d8', 'mediumseagreen':'#3cb371', 'mediumslateblue':'#7b68ee', 'mediumspringgreen':'#00fa9a', 'mediumturquoise':'#48d1cc', 'mediumvioletred':'#c71585', 'midnightblue':'#191970', 'mintcream':'#f5fffa', 'mistyrose':'#ffe4e1', 'moccasin':'#ffe4b5', 'navajowhite':'#ffdead', 'navy':'#000080', 'oldlace':'#fdf5e6', 'olive':'#808000', 'olivedrab':'#6b8e23', 'orange':'#ffa500', 'orangered':'#ff4500', 'orchid':'#da70d6', 'palegoldenrod':'#eee8aa', 'palegreen':'#98fb98', 'paleturquoise':'#afeeee', 'palevioletred':'#d87093', 'papayawhip':'#ffefd5', 'peachpuff':'#ffdab9', 'peru':'#cd853f', 'pink':'#ffc0cb', 'plum':'#dda0dd', 'powderblue':'#b0e0e6', 'purple':'#800080', 'red':'#ff0000', 'rosybrown':'#bc8f8f', 'royalblue':'#4169e1', 'saddlebrown':'#8b4513', 'salmon':'#fa8072', 'sandybrown':'#f4a460', 'seagreen':'#2e8b57', 'seashell':'#fff5ee', 'sienna':'#a0522d', 'silver':'#c0c0c0', 'skyblue':'#87ceeb', 'slateblue':'#6a5acd', 'slategray':'#708090', 'slategrey':'#708090', 'snow':'#fffafa', 'springgreen':'#00ff7f', 'steelblue':'#4682b4', 'tan':'#d2b48c', 'teal':'#008080', 'thistle':'#d8bfd8', 'tomato':'#ff6347', // 'transparent':'rgba(0,0,0,0)', 'turquoise':'#40e0d0', 'violet':'#ee82ee', 'wheat':'#f5deb3', 'white':'#ffffff', 'whitesmoke':'#f5f5f5', 'yellow':'#ffff00', 'yellowgreen':'#9acd32' }; })(require('./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 (env) { if (this.value.eval) { this.value = this.value.eval(env) } return this; } }; })(require('../tree')); (function (tree) { tree.Anonymous = function (string) { this.value = string.value || string; }; tree.Anonymous.prototype = { toCSS: function () { return this.value; }, eval: function () { return this }, compare: function (x) { if (!x.toCSS) { return -1; } var left = this.toCSS(), right = x.toCSS(); if (left === right) { return 0; } return left < right ? -1 : 1; } }; })(require('../tree')); (function (tree) { tree.Assignment = function (key, val) { this.key = key; this.value = val; }; tree.Assignment.prototype = { toCSS: function () { return this.key + '=' + (this.value.toCSS ? this.value.toCSS() : this.value); }, eval: function (env) { if (this.value.eval) { return new(tree.Assignment)(this.key, this.value.eval(env)); } return this; } }; })(require('../tree'));(function (tree) { // // A function call node. // tree.Call = function (name, args, index, filename) { this.name = name; this.args = args; this.index = index; this.filename = filename; }; 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, // if this returns null or we cannot find the function, 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) }), result; if (this.name in tree.functions) { // 1. try { result = tree.functions[this.name].apply(tree.functions, args); if (result != null) { return result; } } catch (e) { throw { type: e.type || "Runtime", message: "error evaluating function `" + this.name + "`" + (e.message ? ': ' + e.message : ''), index: this.index, filename: this.filename }; } } // 2. return new(tree.Anonymous)(this.name + "(" + args.map(function (a) { return a.toCSS(env) }).join(', ') + ")"); }, toCSS: function (env) { return this.eval(env).toCSS(); } }; })(require('../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, this.alpha + other.alpha); }, 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 }; }, toARGB: function () { var argb = [Math.round(this.alpha * 255)].concat(this.rgb); return '#' + argb.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(''); }, compare: function (x) { if (!x.rgb) { return -1; } return (x.rgb[0] === this.rgb[0] && x.rgb[1] === this.rgb[1] && x.rgb[2] === this.rgb[2] && x.alpha === this.alpha) ? 0 : -1; } }; })(require('../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('../tree')); (function (tree) { tree.Condition = function (op, l, r, i, negate) { this.op = op.trim(); this.lvalue = l; this.rvalue = r; this.index = i; this.negate = negate; }; tree.Condition.prototype.eval = function (env) { var a = this.lvalue.eval(env), b = this.rvalue.eval(env); var i = this.index, result; var result = (function (op) { switch (op) { case 'and': return a && b; case 'or': return a || b; default: if (a.compare) { result = a.compare(b); } else if (b.compare) { result = b.compare(a); } else { throw { type: "Type", message: "Unable to perform comparison", index: i }; } switch (result) { case -1: return op === '<' || op === '=<'; case 0: return op === '=' || op === '>=' || op === '=<'; case 1: return op === '>' || op === '>='; } } })(this.op); return this.negate ? !result : result; }; })(require('../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); }, compare: function (other) { if (other instanceof tree.Dimension) { if (other.value > this.value) { return -1; } else if (other.value < this.value) { return 1; } else { if (other.unit && this.unit !== other.unit) { return -1; } return 0; } } else { return -1; } } }; })(require('../tree')); (function (tree) { tree.Directive = function (name, value) { this.name = name; if (Array.isArray(value)) { this.ruleset = new(tree.Ruleset)([], value); this.ruleset.allowImports = true; } 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) { var evaldDirective = this; if (this.ruleset) { env.frames.unshift(this); evaldDirective = new(tree.Directive)(this.name); evaldDirective.ruleset = this.ruleset.eval(env); env.frames.shift(); } return evaldDirective; }, 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('../tree')); (function (tree) { tree.Element = function (combinator, value, index) { this.combinator = combinator instanceof tree.Combinator ? combinator : new(tree.Combinator)(combinator); if (typeof(value) === 'string') { this.value = value.trim(); } else if (value) { this.value = value; } else { this.value = ""; } this.index = index; }; tree.Element.prototype.eval = function (env) { return new(tree.Element)(this.combinator, this.value.eval ? this.value.eval(env) : this.value, this.index); }; tree.Element.prototype.toCSS = function (env) { var value = (this.value.toCSS ? this.value.toCSS(env) : this.value); if (value == '' && this.combinator.value.charAt(0) == '&') { return ''; } else { return this.combinator.toCSS(env || {}) + 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 ? '>' : ' > ', '|' : env.compress ? '|' : ' | ' }[this.value]; }; })(require('../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 if (this.value.length === 1) { return this.value[0].eval(env); } else { return this; } }, toCSS: function (env) { return this.value.map(function (e) { return e.toCSS ? e.toCSS(env) : ''; }).join(' '); } }; })(require('../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, features, once, index, rootpath) { var that = this; this.once = once; this.index = index; this._path = path; this.features = features && new(tree.Value)(features); this.rootpath = rootpath; // The '.less' extension is optional if (path instanceof tree.Quoted) { this.path = /(\.[a-z]*$)|([\?;].*)$/.test(path.value) ? path.value : path.value + '.less'; } else { this.path = path.value.value || path.value; } this.css = /css([\?;].*)?$/.test(this.path); // Only pre-compile .less files if (! this.css) { imports.push(this.path, function (e, root, imported) { if (e) { e.index = index } if (imported && that.once) that.skip = imported; that.root = root || new(tree.Ruleset)([], []); }); } }; // // 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 (env) { var features = this.features ? ' ' + this.features.toCSS(env) : ''; if (this.css) { // Add the base path if the import is relative if (typeof this._path.value === "string" && !/^(?:[a-z-]+:|\/)/.test(this._path.value)) { this._path.value = this.rootpath + this._path.value; } return "@import " + this._path.toCSS() + features + ';\n'; } else { return ""; } }, eval: function (env) { var ruleset, features = this.features && this.features.eval(env); if (this.skip) return []; if (this.css) { return this; } else { ruleset = new(tree.Ruleset)([], this.root.rules.slice(0)); ruleset.evalImports(env); return this.features ? new(tree.Media)(ruleset.rules, this.features.value) : ruleset.rules; } } }; })(require('../tree')); (function (tree) { tree.JavaScript = function (string, index, escaped) { this.escaped = escaped; this.expression = string; this.index = index; }; tree.JavaScript.prototype = { eval: function (env) { var result, that = this, context = {}; var expression = this.expression.replace(/@\{([\w-]+)\}/g, function (_, name) { return tree.jsify(new(tree.Variable)('@' + name, that.index).eval(env)); }); try { expression = new(Function)('return (' + expression + ')'); } catch (e) { throw { message: "JavaScript evaluation error: `" + expression + "`" , index: this.index }; } for (var k in env.frames[0].variables()) { context[k.slice(1)] = { value: env.frames[0].variables()[k].value, toJS: function () { return this.value.eval(env).toCSS(); } }; } try { result = expression.call(context); } catch (e) { throw { message: "JavaScript evaluation error: '" + e.name + ': ' + e.message + "'" , index: this.index }; } if (typeof(result) === 'string') { return new(tree.Quoted)('"' + result + '"', result, this.escaped, this.index); } else if (Array.isArray(result)) { return new(tree.Anonymous)(result.join(', ')); } else { return new(tree.Anonymous)(result); } } }; })(require('../tree')); (function (tree) { tree.Keyword = function (value) { this.value = value }; tree.Keyword.prototype = { eval: function () { return this }, toCSS: function () { return this.value }, compare: function (other) { if (other instanceof tree.Keyword) { return other.value === this.value ? 0 : 1; } else { return -1; } } }; tree.True = new(tree.Keyword)('true'); tree.False = new(tree.Keyword)('false'); })(require('../tree')); (function (tree) { tree.Media = function (value, features) { var selectors = this.emptySelectors(); this.features = new(tree.Value)(features); this.ruleset = new(tree.Ruleset)(selectors, value); this.ruleset.allowImports = true; }; tree.Media.prototype = { toCSS: function (ctx, env) { var features = this.features.toCSS(env); this.ruleset.root = (ctx.length === 0 || ctx[0].multiMedia); return '@media ' + features + (env.compress ? '{' : ' {\n ') + this.ruleset.toCSS(ctx, env).trim().replace(/\n/g, '\n ') + (env.compress ? '}': '\n}\n'); }, eval: function (env) { if (!env.mediaBlocks) { env.mediaBlocks = []; env.mediaPath = []; } var media = new(tree.Media)([], []); if(this.debugInfo) { this.ruleset.debugInfo = this.debugInfo; media.debugInfo = this.debugInfo; } media.features = this.features.eval(env); env.mediaPath.push(media); env.mediaBlocks.push(media); env.frames.unshift(this.ruleset); media.ruleset = this.ruleset.eval(env); env.frames.shift(); env.mediaPath.pop(); return env.mediaPath.length === 0 ? media.evalTop(env) : media.evalNested(env) }, 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) }, emptySelectors: function() { var el = new(tree.Element)('', '&', 0); return [new(tree.Selector)([el])]; }, evalTop: function (env) { var result = this; // Render all dependent Media blocks. if (env.mediaBlocks.length > 1) { var selectors = this.emptySelectors(); result = new(tree.Ruleset)(selectors, env.mediaBlocks); result.multiMedia = true; } delete env.mediaBlocks; delete env.mediaPath; return result; }, evalNested: function (env) { var i, value, path = env.mediaPath.concat([this]); // Extract the media-query conditions separated with `,` (OR). for (i = 0; i < path.length; i++) { value = path[i].features instanceof tree.Value ? path[i].features.value : path[i].features; path[i] = Array.isArray(value) ? value : [value]; } // Trace all permutations to generate the resulting media-query. // // (a, b and c) with nested (d, e) -> // a and d // a and e // b and c and d // b and c and e this.features = new(tree.Value)(this.permute(path).map(function (path) { path = path.map(function (fragment) { return fragment.toCSS ? fragment : new(tree.Anonymous)(fragment); }); for(i = path.length - 1; i > 0; i--) { path.splice(i, 0, new(tree.Anonymous)("and")); } return new(tree.Expression)(path); })); // Fake a tree-node that doesn't output anything. return new(tree.Ruleset)([], []); }, permute: function (arr) { if (arr.length === 0) { return []; } else if (arr.length === 1) { return arr[0]; } else { var result = []; var rest = this.permute(arr.slice(1)); for (var i = 0; i < rest.length; i++) { for (var j = 0; j < arr[0].length; j++) { result.push([arr[0][j]].concat(rest[i])); } } return result; } }, bubbleSelectors: function (selectors) { this.ruleset = new(tree.Ruleset)(selectors.slice(0), [this.ruleset]); } }; })(require('../tree')); (function (tree) { tree.mixin = {}; tree.mixin.Call = function (elements, args, index, filename, important) { this.selector = new(tree.Selector)(elements); this.arguments = args; this.index = index; this.filename = filename; this.important = important; }; tree.mixin.Call.prototype = { eval: function (env) { var mixins, mixin, args, rules = [], match = false, i, m, f, isRecursive, isOneFound; args = this.arguments && this.arguments.map(function (a) { return { name: a.name, value: a.value.eval(env) }; }); for (i = 0; i < env.frames.length; i++) { if ((mixins = env.frames[i].find(this.selector)).length > 0) { isOneFound = true; for (m = 0; m < mixins.length; m++) { mixin = mixins[m]; isRecursive = false; for(f = 0; f < env.frames.length; f++) { if ((!(mixin instanceof tree.mixin.Definition)) && mixin === (env.frames[f].originalRuleset || env.frames[f])) { isRecursive = true; break; } } if (isRecursive) { continue; } if (mixin.matchArgs(args, env)) { if (!mixin.matchCondition || mixin.matchCondition(args, env)) { try { Array.prototype.push.apply( rules, mixin.eval(env, args, this.important).rules); } catch (e) { throw { message: e.message, index: this.index, filename: this.filename, stack: e.stack }; } } match = true; } } if (match) { return rules; } } } if (isOneFound) { throw { type: 'Runtime', message: 'No matching definition was found for `' + this.selector.toCSS().trim() + '(' + (args ? args.map(function (a) { var argValue = ""; if (a.name) { argValue += a.name + ":"; } if (a.value.toCSS) { argValue += a.value.toCSS(); } else { argValue += "???"; } return argValue; }).join(', ') : "") + ")`", index: this.index, filename: this.filename }; } else { throw { type: 'Name', message: this.selector.toCSS().trim() + " is undefined", index: this.index, filename: this.filename }; } } }; tree.mixin.Definition = function (name, params, rules, condition, variadic) { this.name = name; this.selectors = [new(tree.Selector)([new(tree.Element)(null, name)])]; this.params = params; this.condition = condition; this.variadic = variadic; this.arity = params.length; this.rules = rules; this._lookups = {}; this.required = params.reduce(function (count, p) { if (!p.name || (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) }, variables: function () { return this.parent.variables.call(this) }, find: function () { return this.parent.find.apply(this, arguments) }, rulesets: function () { return this.parent.rulesets.apply(this) }, evalParams: function (env, mixinEnv, args, evaldArguments) { var frame = new(tree.Ruleset)(null, []), varargs, arg, params = this.params.slice(0), i, j, val, name, isNamedFound, argIndex; if (args) { args = args.slice(0); for(i = 0; i < args.length; i++) { arg = args[i]; if (name = (arg && arg.name)) { isNamedFound = false; for(j = 0; j < params.length; j++) { if (!evaldArguments[j] && name === params[j].name) { evaldArguments[j] = arg.value.eval(env); frame.rules.unshift(new(tree.Rule)(name, arg.value.eval(env))); isNamedFound = true; break; } } if (isNamedFound) { args.splice(i, 1); i--; continue; } else { throw { type: 'Runtime', message: "Named argument for " + this.name + ' ' + args[i].name + ' not found' }; } } } } argIndex = 0; for (i = 0; i < params.length; i++) { if (evaldArguments[i]) continue; arg = args && args[argIndex]; if (name = params[i].name) { if (params[i].variadic && args) { varargs = []; for (j = argIndex; j < args.length; j++) { varargs.push(args[j].value.eval(env)); } frame.rules.unshift(new(tree.Rule)(name, new(tree.Expression)(varargs).eval(env))); } else { val = arg && arg.value; if (val) { val = val.eval(env); } else if (params[i].value) { val = params[i].value.eval(mixinEnv); } else { throw { type: 'Runtime', message: "wrong number of arguments for " + this.name + ' (' + args.length + ' for ' + this.arity + ')' }; } frame.rules.unshift(new(tree.Rule)(name, val)); evaldArguments[i] = val; } } if (params[i].variadic && args) { for (j = argIndex; j < args.length; j++) { evaldArguments[j] = args[j].value.eval(env); } } argIndex++; } return frame; }, eval: function (env, args, important) { var _arguments = [], mixinFrames = this.frames.concat(env.frames), frame = this.evalParams(env, {frames: mixinFrames}, args, _arguments), context, rules, start, ruleset; frame.rules.unshift(new(tree.Rule)('@arguments', new(tree.Expression)(_arguments).eval(env))); rules = important ? this.parent.makeImportant.apply(this).rules : this.rules.slice(0); ruleset = new(tree.Ruleset)(null, rules).eval({ frames: [this, frame].concat(mixinFrames) }); ruleset.originalRuleset = this; return ruleset; }, matchCondition: function (args, env) { if (this.condition && !this.condition.eval({ frames: [this.evalParams(env, {frames: this.frames.concat(env.frames)}, args, [])].concat(env.frames) })) { return false } return true; }, matchArgs: function (args, env) { var argsLength = (args && args.length) || 0, len, frame; if (! this.variadic) { if (argsLength < this.required) { return false } if (argsLength > this.params.length) { return false } if ((this.required > 0) && (argsLength > this.params.length)) { return false } } len = Math.min(argsLength, this.arity); for (var i = 0; i < len; i++) { if (!this.params[i].name && !this.params[i].variadic) { if (args[i].value.eval(env).toCSS() != this.params[i].value.eval(env).toCSS()) { return false; } } } return true; } }; })(require('../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" }; } } if (!a.operate) { throw { name: "OperationError", message: "Operation on an invalid type" }; } 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('../tree')); (function (tree) { tree.Paren = function (node) { this.value = node; }; tree.Paren.prototype = { toCSS: function (env) { return '(' + this.value.toCSS(env) + ')'; }, eval: function (env) { return new(tree.Paren)(this.value.eval(env)); } }; })(require('../tree')); (function (tree) { tree.Quoted = function (str, content, escaped, i) { this.escaped = escaped; this.value = content || ''; this.quote = str.charAt(0); this.index = i; }; tree.Quoted.prototype = { toCSS: function () { if (this.escaped) { return this.value; } else { return this.quote + this.value + this.quote; } }, eval: function (env) { var that = this; var value = this.value.replace(/`([^`]+)`/g, function (_, exp) { return new(tree.JavaScript)(exp, that.index, true).eval(env).value; }).replace(/@\{([\w-]+)\}/g, function (_, name) { var v = new(tree.Variable)('@' + name, that.index).eval(env); return (v instanceof tree.Quoted) ? v.value : v.toCSS(); }); return new(tree.Quoted)(this.quote + value + this.quote, value, this.escaped, this.index); }, compare: function (x) { if (!x.toCSS) { return -1; } var left = this.toCSS(), right = x.toCSS(); if (left === right) { return 0; } return left < right ? -1 : 1; } }; })(require('../tree')); (function (tree) { tree.Ratio = function (value) { this.value = value; }; tree.Ratio.prototype = { toCSS: function (env) { return this.value; }, eval: function () { return this } }; })(require('../tree')); (function (tree) { tree.Rule = function (name, value, important, index, inline) { this.name = name; this.value = (value instanceof tree.Value) ? value : new(tree.Value)([value]); this.important = important ? ' ' + important.trim() : ''; this.index = index; this.inline = inline || false; 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 + (this.inline ? "" : ";"); } }; tree.Rule.prototype.eval = function (context) { return new(tree.Rule)(this.name, this.value.eval(context), this.important, this.index, this.inline); }; tree.Rule.prototype.makeImportant = function () { return new(tree.Rule)(this.name, this.value, "!important", this.index, this.inline); }; 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('../tree')); (function (tree) { tree.Ruleset = function (selectors, rules, strictImports) { this.selectors = selectors; this.rules = rules; this._lookups = {}; this.strictImports = strictImports; }; tree.Ruleset.prototype = { eval: function (env) { var selectors = this.selectors && this.selectors.map(function (s) { return s.eval(env) }); var ruleset = new(tree.Ruleset)(selectors, this.rules.slice(0), this.strictImports); var rules; ruleset.originalRuleset = this; ruleset.root = this.root; ruleset.allowImports = this.allowImports; if(this.debugInfo) { ruleset.debugInfo = this.debugInfo; } // push the current ruleset to the frames stack env.frames.unshift(ruleset); // Evaluate imports if (ruleset.root || ruleset.allowImports || !ruleset.strictImports) { ruleset.evalImports(env); } // Store the frames around mixin definitions, // so they can be evaluated like closures when the time comes. for (var i = 0; i < ruleset.rules.length; i++) { if (ruleset.rules[i] instanceof tree.mixin.Definition) { ruleset.rules[i].frames = env.frames.slice(0); } } var mediaBlockCount = (env.mediaBlocks && env.mediaBlocks.length) || 0; // Evaluate mixin calls. for (var i = 0; i < ruleset.rules.length; i++) { if (ruleset.rules[i] instanceof tree.mixin.Call) { rules = ruleset.rules[i].eval(env); ruleset.rules.splice.apply(ruleset.rules, [i, 1].concat(rules)); i += rules.length-1; ruleset.resetCache(); } } // Evaluate everything else for (var i = 0, rule; i < ruleset.rules.length; i++) { rule = ruleset.rules[i]; if (! (rule instanceof tree.mixin.Definition)) { ruleset.rules[i] = rule.eval ? rule.eval(env) : rule; } } // Pop the stack env.frames.shift(); if (env.mediaBlocks) { for(var i = mediaBlockCount; i < env.mediaBlocks.length; i++) { env.mediaBlocks[i].bubbleSelectors(selectors); } } return ruleset; }, evalImports: function(env) { var i, rules; for (i = 0; i < this.rules.length; i++) { if (this.rules[i] instanceof tree.Import) { rules = this.rules[i].eval(env); if (typeof rules.length === "number") { this.rules.splice.apply(this.rules, [i, 1].concat(rules)); i+= rules.length-1; } else { this.rules.splice(i, 1, rules); } this.resetCache(); } } }, makeImportant: function() { return new tree.Ruleset(this.selectors, this.rules.map(function (r) { if (r.makeImportant) { return r.makeImportant(); } else { return r; } }), this.strictImports); }, matchArgs: function (args) { return !args || args.length === 0; }, resetCache: function () { this._rulesets = null; this._variables = null; this._lookups = {}; }, variables: function () { if (this._variables) { return this._variables } else { return this._variables = this.rules.reduce(function (hash, r) { if (r instanceof tree.Rule && r.variable === true) { hash[r.name] = r; } return hash; }, {}); } }, variable: function (name) { return this.variables()[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 > rule.selectors[j].elements.length) { 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 _rules = [], // rulesets = [], // node.Ruleset instances paths = [], // Current selectors selector, // The fully rendered selector debugInfo, // Line number debugging rule; if (! this.root) { this.joinSelectors(paths, context, this.selectors); } // Compile rules and rulesets for (var i = 0; i < this.rules.length; i++) { rule = this.rules[i]; if (rule.rules || (rule instanceof tree.Media)) { rulesets.push(rule.toCSS(paths, env)); } else if (rule instanceof tree.Directive) { var cssValue = rule.toCSS(paths, env); // Output only the first @charset definition as such - convert the others // to comments in case debug is enabled if (rule.name === "@charset") { // Only output the debug info together with subsequent @charset definitions // a comment (or @media statement) before the actual @charset directive would // be considered illegal css as it has to be on the first line if (env.charset) { if (rule.debugInfo) { rulesets.push(tree.debugInfo(env, rule)); rulesets.push(new tree.Comment("/* "+cssValue.replace(/\n/g, "")+" */\n").toCSS(env)); } continue; } env.charset = true; } rulesets.push(cssValue); } 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) { debugInfo = tree.debugInfo(env, this); selector = paths.map(function (p) { return p.map(function (s) { return s.toCSS(env); }).join('').trim(); }).join(env.compress ? ',' : ',\n'); // Remove duplicates for (var i = rules.length - 1; i >= 0; i--) { if (_rules.indexOf(rules[i]) === -1) { _rules.unshift(rules[i]); } } rules = _rules; css.push(debugInfo + selector + (env.compress ? '{' : ' {\n ') + rules.join(env.compress ? '' : '\n ') + (env.compress ? '}' : '\n}\n')); } } css.push(rulesets); return css.join('') + (env.compress ? '\n' : ''); }, joinSelectors: function (paths, context, selectors) { for (var s = 0; s < selectors.length; s++) { this.joinSelector(paths, context, selectors[s]); } }, joinSelector: function (paths, context, selector) { var i, j, k, hasParentSelector, newSelectors, el, sel, parentSel, newSelectorPath, afterParentJoin, newJoinedSelector, newJoinedSelectorEmpty, lastSelector, currentElements, selectorsMultiplied; for (i = 0; i < selector.elements.length; i++) { el = selector.elements[i]; if (el.value === '&') { hasParentSelector = true; } } if (!hasParentSelector) { if (context.length > 0) { for(i = 0; i < context.length; i++) { paths.push(context[i].concat(selector)); } } else { paths.push([selector]); } return; } // The paths are [[Selector]] // The first list is a list of comma seperated selectors // The inner list is a list of inheritance seperated selectors // e.g. // .a, .b { // .c { // } // } // == [[.a] [.c]] [[.b] [.c]] // // the elements from the current selector so far currentElements = []; // the current list of new selectors to add to the path. // We will build it up. We initiate it with one empty selector as we "multiply" the new selectors // by the parents newSelectors = [[]]; for (i = 0; i < selector.elements.length; i++) { el = selector.elements[i]; // non parent reference elements just get added if (el.value !== "&") { currentElements.push(el); } else { // the new list of selectors to add selectorsMultiplied = []; // merge the current list of non parent selector elements // on to the current list of selectors to add if (currentElements.length > 0) { this.mergeElementsOnToSelectors(currentElements, newSelectors); } // loop through our current selectors for(j = 0; j < newSelectors.length; j++) { sel = newSelectors[j]; // if we don't have any parent paths, the & might be in a mixin so that it can be used // whether there are parents or not if (context.length == 0) { // the combinator used on el should now be applied to the next element instead so that // it is not lost if (sel.length > 0) { sel[0].elements = sel[0].elements.slice(0); sel[0].elements.push(new(tree.Element)(el.combinator, '', 0)); //new Element(el.Combinator, "")); } selectorsMultiplied.push(sel); } else { // and the parent selectors for(k = 0; k < context.length; k++) { parentSel = context[k]; // We need to put the current selectors // then join the last selector's elements on to the parents selectors // our new selector path newSelectorPath = []; // selectors from the parent after the join afterParentJoin = []; newJoinedSelectorEmpty = true; //construct the joined selector - if & is the first thing this will be empty, // if not newJoinedSelector will be the last set of elements in the selector if (sel.length > 0) { newSelectorPath = sel.slice(0); lastSelector = newSelectorPath.pop(); newJoinedSelector = new(tree.Selector)(lastSelector.elements.slice(0)); newJoinedSelectorEmpty = false; } else { newJoinedSelector = new(tree.Selector)([]); } //put together the parent selectors after the join if (parentSel.length > 1) { afterParentJoin = afterParentJoin.concat(parentSel.slice(1)); } if (parentSel.length > 0) { newJoinedSelectorEmpty = false; // join the elements so far with the first part of the parent newJoinedSelector.elements.push(new(tree.Element)(el.combinator, parentSel[0].elements[0].value, 0)); newJoinedSelector.elements = newJoinedSelector.elements.concat(parentSel[0].elements.slice(1)); } if (!newJoinedSelectorEmpty) { // now add the joined selector newSelectorPath.push(newJoinedSelector); } // and the rest of the parent newSelectorPath = newSelectorPath.concat(afterParentJoin); // add that to our new set of selectors selectorsMultiplied.push(newSelectorPath); } } } // our new selectors has been multiplied, so reset the state newSelectors = selectorsMultiplied; currentElements = []; } } // if we have any elements left over (e.g. .a& .b == .b) // add them on to all the current selectors if (currentElements.length > 0) { this.mergeElementsOnToSelectors(currentElements, newSelectors); } for(i = 0; i < newSelectors.length; i++) { paths.push(newSelectors[i]); } }, mergeElementsOnToSelectors: function(elements, selectors) { var i, sel; if (selectors.length == 0) { selectors.push([ new(tree.Selector)(elements) ]); return; } for(i = 0; i < selectors.length; i++) { sel = selectors[i]; // if the previous thing in sel is a parent this needs to join on to it if (sel.length > 0) { sel[sel.length - 1] = new(tree.Selector)(sel[sel.length - 1].elements.concat(elements)); } else { sel.push(new(tree.Selector)(elements)); } } } }; })(require('../tree')); (function (tree) { tree.Selector = function (elements) { this.elements = elements; }; tree.Selector.prototype.match = function (other) { var elements = this.elements, len = elements.length, oelements, olen, max, i; oelements = other.elements.slice( (other.elements.length && other.elements[0].value === "&") ? 1 : 0); olen = oelements.length; max = Math.min(len, olen) if (olen === 0 || len < olen) { return false; } else { for (i = 0; i < max; i++) { if (elements[i].value !== oelements[i].value) { return false; } } } return true; }; tree.Selector.prototype.eval = function (env) { return new(tree.Selector)(this.elements.map(function (e) { return e.eval(env); })); }; tree.Selector.prototype.toCSS = function (env) { if (this._css) { return this._css } if (this.elements[0].combinator.value === "") { this._css = ' '; } else { this._css = ''; } this._css += this.elements.map(function (e) { if (typeof(e) === 'string') { return ' ' + e.trim(); } else { return e.toCSS(env); } }).join(''); return this._css; }; })(require('../tree')); (function (tree) { tree.UnicodeDescriptor = function (value) { this.value = value; }; tree.UnicodeDescriptor.prototype = { toCSS: function (env) { return this.value; }, eval: function () { return this } }; })(require('../tree')); (function (tree) { tree.URL = function (val, rootpath) { this.value = val; this.rootpath = rootpath; }; tree.URL.prototype = { toCSS: function () { return "url(" + this.value.toCSS() + ")"; }, eval: function (ctx) { var val = this.value.eval(ctx), rootpath; // Add the base path if the URL is relative if (typeof val.value === "string" && !/^(?:[a-z-]+:|\/)/.test(val.value)) { rootpath = this.rootpath; if (!val.quote) { rootpath = rootpath.replace(/[\(\)'"\s]/g, function(match) { return "\\"+match; }); } val.value = rootpath + val.value; } return new(tree.URL)(val, this.rootpath); } }; })(require('../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('../tree')); (function (tree) { tree.Variable = function (name, index, file) { this.name = name, this.index = index, this.file = file }; tree.Variable.prototype = { eval: function (env) { var variable, v, name = this.name; if (name.indexOf('@@') == 0) { name = '@' + new(tree.Variable)(name.slice(1)).eval(env).value; } if (this.evaluating) { throw { type: 'Name', message: "Recursive variable definition for " + name, filename: this.file, index: this.index }; } this.evaluating = true; if (variable = tree.find(env.frames, function (frame) { if (v = frame.variable(name)) { return v.value.eval(env); } })) { this.evaluating = false; return variable; } else { throw { type: 'Name', message: "variable " + name + " is undefined", filename: this.file, index: this.index }; } } }; })(require('../tree')); (function (tree) { tree.debugInfo = function(env, ctx) { var result=""; if (env.dumpLineNumbers && !env.compress) { switch(env.dumpLineNumbers) { case 'comments': result = tree.debugInfo.asComment(ctx); break; case 'mediaquery': result = tree.debugInfo.asMediaQuery(ctx); break; case 'all': result = tree.debugInfo.asComment(ctx)+tree.debugInfo.asMediaQuery(ctx); break; } } return result; }; tree.debugInfo.asComment = function(ctx) { return '/* line ' + ctx.debugInfo.lineNumber + ', ' + ctx.debugInfo.fileName + ' */\n'; }; tree.debugInfo.asMediaQuery = function(ctx) { return '@media -sass-debug-info{filename{font-family:' + ('file://' + ctx.debugInfo.fileName).replace(/[\/:.]/g, '\\$&') + '}line{font-family:\\00003' + ctx.debugInfo.lineNumber + '}}\n'; }; 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; }; tree.jsify = function (obj) { if (Array.isArray(obj.value) && (obj.value.length > 1)) { return '[' + obj.value.map(function (v) { return v.toCSS(false) }).join(', ') + ']'; } else { return obj.toCSS(false); } }; })(require('./tree')); var name; function loadStyleSheet(sheet, callback, reload, remaining) { var endOfPath = Math.max(name.lastIndexOf('/'), name.lastIndexOf('\\')), sheetName = name.slice(0, endOfPath + 1) + sheet.href, contents = sheet.contents || {}, input = readFile(sheetName); contents[sheetName] = input; var parser = new less.Parser({ paths: [sheet.href.replace(/[\w\.-]+$/, '')], contents: contents }); parser.parse(input, function (e, root) { if (e) { return error(e, sheetName); } try { callback(e, root, input, sheet, { local: false, lastModified: 0, remaining: remaining }, sheetName); } catch(e) { error(e, sheetName); } }); } function writeFile(filename, content) { var fstream = new java.io.FileWriter(filename); var out = new java.io.BufferedWriter(fstream); out.write(content); out.close(); } // Command line integration via Rhino (function (args) { var output, compress = false, i; for(i = 0; i < args.length; i++) { switch(args[i]) { case "-x": compress = true; break; default: if (!name) { name = args[i]; } else if (!output) { output = args[i]; } else { print("unrecognised parameters"); print("input_file [output_file] [-x]"); } } } if (!name) { print('No files present in the fileset; Check your pattern match in build.xml'); quit(1); } path = name.split("/");path.pop();path=path.join("/") var input = readFile(name); if (!input) { print('lesscss: couldn\'t open file ' + name); quit(1); } var result; try { var parser = new less.Parser(); parser.parse(input, function (e, root) { if (e) { error(e, name); quit(1); } else { result = root.toCSS({compress: compress || false}); if (output) { writeFile(output, result); print("Written to " + output); } else { print(result); } quit(0); } }); } catch(e) { error(e, name); quit(1); } print("done"); }(arguments)); function error(e, filename) { var content = "Error : " + filename + "\n"; filename = e.filename || filename; if (e.message) { content += e.message + "\n"; } var errorline = function (e, i, classname) { if (e.extract[i]) { content += String(parseInt(e.line) + (i - 1)) + ":" + e.extract[i] + "\n"; } }; if (e.stack) { content += e.stack; } else if (e.extract) { content += 'on line ' + e.line + ', column ' + (e.column + 1) + ':\n'; errorline(e, 0); errorline(e, 1); errorline(e, 2); } print(content); }