mirror of
https://github.com/less/less.js.git
synced 2026-02-10 15:05:09 -05:00
324 lines
15 KiB
JavaScript
324 lines
15 KiB
JavaScript
(function (tree) {
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tree.extendFinderVisitor = function() {
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this._visitor = new tree.visitor(this);
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this.contexts = [];
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this.allExtendsStack = [[]];
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};
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tree.extendFinderVisitor.prototype = {
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run: function (root) {
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root = this._visitor.visit(root);
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root.allExtends = this.allExtendsStack[0];
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return root;
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},
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visitRule: function (ruleNode, visitArgs) {
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visitArgs.visitDeeper = false;
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},
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visitMixinDefinition: function (mixinDefinitionNode, visitArgs) {
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visitArgs.visitDeeper = false;
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},
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visitRuleset: function (rulesetNode, visitArgs) {
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if (rulesetNode.root) {
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return;
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}
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var i, j, extend, allSelectorsExtendList = [], extendList;
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// get &:extend(.a); rules which apply to all selectors in this ruleset
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for(i = 0; i < rulesetNode.rules.length; i++) {
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if (rulesetNode.rules[i] instanceof tree.Extend) {
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allSelectorsExtendList.push(rulesetNode.rules[i]);
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}
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}
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// now find every selector and apply the extends that apply to all extends
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// and the ones which apply to an individual extend
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for(i = 0; i < rulesetNode.paths.length; i++) {
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var selectorPath = rulesetNode.paths[i],
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selector = selectorPath[selectorPath.length-1];
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extendList = selector.extendList.slice(0).concat(allSelectorsExtendList).map(function(allSelectorsExtend) {
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return allSelectorsExtend.clone();
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});
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for(j = 0; j < extendList.length; j++) {
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this.foundExtends = true;
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extend = extendList[j];
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extend.findSelfSelectors(selectorPath);
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extend.ruleset = rulesetNode;
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this.allExtendsStack[this.allExtendsStack.length-1].push(extend);
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}
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}
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this.contexts.push(rulesetNode.selectors);
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},
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visitRulesetOut: function (rulesetNode) {
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if (!rulesetNode.root) {
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this.contexts.length = this.contexts.length - 1;
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}
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},
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visitMedia: function (mediaNode, visitArgs) {
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mediaNode.allExtends = [];
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this.allExtendsStack.push(mediaNode.allExtends);
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},
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visitMediaOut: function (mediaNode) {
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this.allExtendsStack.length = this.allExtendsStack.length - 1;
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},
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visitDirective: function (directiveNode, visitArgs) {
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directiveNode.allExtends = [];
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this.allExtendsStack.push(directiveNode.allExtends);
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},
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visitDirectiveOut: function (directiveNode) {
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this.allExtendsStack.length = this.allExtendsStack.length - 1;
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}
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};
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tree.processExtendsVisitor = function() {
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this._visitor = new tree.visitor(this);
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};
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tree.processExtendsVisitor.prototype = {
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run: function(root) {
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var extendFinder = new tree.extendFinderVisitor();
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extendFinder.run(root);
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if (!extendFinder.foundExtends) { return root; }
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root.allExtends = root.allExtends.concat(this.doExtendChaining(root.allExtends, root.allExtends));
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this.allExtendsStack = [root.allExtends];
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return this._visitor.visit(root);
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},
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doExtendChaining: function (extendsList, extendsListTarget, iterationCount) {
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var extendIndex, targetExtendIndex, matches, extendsToAdd = [], newSelector, extendVisitor = this, selectorPath;
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iterationCount = iterationCount || 0;
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for(extendIndex = 0; extendIndex < extendsList.length; extendIndex++){
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for(targetExtendIndex = 0; targetExtendIndex < extendsListTarget.length; targetExtendIndex++){
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var extend = extendsList[extendIndex];
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var targetExtend = extendsListTarget[targetExtendIndex];
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if (this.inInheritanceChain(targetExtend, extend)) { continue; }
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selectorPath = [targetExtend.selfSelectors[0]];
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matches = extendVisitor.findMatch(extend, selectorPath);
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if (matches.length) {
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extend.selfSelectors.forEach(function(selfSelector) {
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newSelector = extendVisitor.extendSelector(matches, selectorPath, selfSelector);
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newExtend = new(tree.Extend)(targetExtend.selector, targetExtend.option, 0);
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newExtend.selfSelectors = newSelector;
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newSelector[newSelector.length-1].extendList = [newExtend];
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extendsToAdd.push(newExtend);
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newExtend.ruleset = targetExtend.ruleset;
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newExtend.parents = [targetExtend, extend];
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targetExtend.ruleset.paths.push(newSelector);
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});
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}
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}
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}
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if (extendsToAdd.length) {
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this.extendChainCount++;
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if (iterationCount > 100) {
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var selectorOne = "{unable to calculate}";
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var selectorTwo = "{unable to calculate}";
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try
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{
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selectorOne = extendsToAdd[0].selfSelectors[0].toCSS();
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selectorTwo = extendsToAdd[0].selector.toCSS();
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}
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catch(e) {}
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throw {message: "extend circular reference detected. One of the circular extends is currently:"+selectorOne+":extend(" + selectorTwo+")"};
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}
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return extendsToAdd.concat(extendVisitor.doExtendChaining(extendsToAdd, extendsListTarget, iterationCount+1));
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} else {
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return extendsToAdd;
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}
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},
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inInheritanceChain: function (possibleParent, possibleChild) {
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if (possibleParent === possibleChild) {
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return true;
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}
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if (possibleChild.parents) {
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if (this.inInheritanceChain(possibleParent, possibleChild.parents[0])) {
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return true;
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}
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if (this.inInheritanceChain(possibleParent, possibleChild.parents[1])) {
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return true;
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}
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}
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return false;
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},
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visitRule: function (ruleNode, visitArgs) {
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visitArgs.visitDeeper = false;
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},
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visitMixinDefinition: function (mixinDefinitionNode, visitArgs) {
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visitArgs.visitDeeper = false;
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},
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visitSelector: function (selectorNode, visitArgs) {
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visitArgs.visitDeeper = false;
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},
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visitRuleset: function (rulesetNode, visitArgs) {
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if (rulesetNode.root) {
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return;
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}
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var matches, pathIndex, extendIndex, allExtends = this.allExtendsStack[this.allExtendsStack.length-1], selectorsToAdd = [], extendVisitor = this;
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// look at each selector path in the ruleset, find any extend matches and then copy, find and replace
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for(extendIndex = 0; extendIndex < allExtends.length; extendIndex++) {
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for(pathIndex = 0; pathIndex < rulesetNode.paths.length; pathIndex++) {
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selectorPath = rulesetNode.paths[pathIndex];
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// extending extends happens initially, before the main pass
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if (selectorPath[selectorPath.length-1].extendList.length) { continue; }
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matches = this.findMatch(allExtends[extendIndex], selectorPath);
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if (matches.length) {
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allExtends[extendIndex].selfSelectors.forEach(function(selfSelector) {
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selectorsToAdd.push(extendVisitor.extendSelector(matches, selectorPath, selfSelector));
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});
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}
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}
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}
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rulesetNode.paths = rulesetNode.paths.concat(selectorsToAdd);
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},
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findMatch: function (extend, haystackSelectorPath) {
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//
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// look through the haystack selector path to try and find the needle - extend.selector
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// returns an array of selector matches that can then be replaced
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//
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var haystackSelectorIndex, hackstackSelector, hackstackElementIndex, haystackElement,
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targetCombinator, i,
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needleElements = extend.selector.elements,
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potentialMatches = [], potentialMatch, matches = [];
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// loop through the haystack elements
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for(haystackSelectorIndex = 0; haystackSelectorIndex < haystackSelectorPath.length; haystackSelectorIndex++) {
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hackstackSelector = haystackSelectorPath[haystackSelectorIndex];
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for(hackstackElementIndex = 0; hackstackElementIndex < hackstackSelector.elements.length; hackstackElementIndex++) {
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haystackElement = hackstackSelector.elements[hackstackElementIndex];
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// if we allow elements before our match we can add a potential match every time. otherwise only at the first element.
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if (extend.allowBefore || (haystackSelectorIndex == 0 && hackstackElementIndex == 0)) {
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potentialMatches.push({pathIndex: haystackSelectorIndex, index: hackstackElementIndex, matched: 0, initialCombinator: haystackElement.combinator});
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}
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for(i = 0; i < potentialMatches.length; i++) {
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potentialMatch = potentialMatches[i];
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// selectors add " " onto the first element. When we use & it joins the selectors together, but if we don't
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// then each selector in haystackSelectorPath has a space before it added in the toCSS phase. so we need to work out
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// what the resulting combinator will be
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targetCombinator = haystackElement.combinator.value;
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if (targetCombinator == '' && hackstackElementIndex === 0) {
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targetCombinator = ' ';
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}
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// if we don't match, null our match to indicate failure
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if (needleElements[potentialMatch.matched].value !== haystackElement.value ||
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(potentialMatch.matched > 0 && needleElements[potentialMatch.matched].combinator.value !== targetCombinator)) {
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potentialMatch = null;
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} else {
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potentialMatch.matched++;
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}
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// if we are still valid and have finished, test whether we have elements after and whether these are allowed
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if (potentialMatch) {
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potentialMatch.finished = potentialMatch.matched === needleElements.length;
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if (potentialMatch.finished &&
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(!extend.allowAfter && (hackstackElementIndex+1 < hackstackSelector.elements.length || haystackSelectorIndex+1 < haystackSelectorPath.length))) {
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potentialMatch = null;
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}
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}
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// if null we remove, if not, we are still valid, so either push as a valid match or continue
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if (potentialMatch) {
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if (potentialMatch.finished) {
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potentialMatch.length = needleElements.length;
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potentialMatch.endPathIndex = haystackSelectorIndex;
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potentialMatch.endPathElementIndex = hackstackElementIndex + 1; // index after end of match
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potentialMatches.length = 0; // we don't allow matches to overlap, so start matching again
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matches.push(potentialMatch);
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}
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} else {
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potentialMatches.splice(i, 1);
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i--;
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}
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}
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}
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}
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return matches;
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},
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extendSelector:function (matches, selectorPath, replacementSelector) {
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//for a set of matches, replace each match with the replacement selector
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var currentSelectorPathIndex = 0,
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currentSelectorPathElementIndex = 0,
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path = [],
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matchIndex,
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selector,
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firstElement;
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for (matchIndex = 0; matchIndex < matches.length; matchIndex++) {
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match = matches[matchIndex];
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selector = selectorPath[match.pathIndex];
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firstElement = new tree.Element(
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match.initialCombinator,
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replacementSelector.elements[0].value,
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replacementSelector.elements[0].index
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);
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if (match.pathIndex > currentSelectorPathIndex && currentSelectorPathElementIndex > 0) {
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path[path.length - 1].elements = path[path.length - 1].elements.concat(selectorPath[currentSelectorPathIndex].elements.slice(currentSelectorPathElementIndex));
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currentSelectorPathElementIndex = 0;
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currentSelectorPathIndex++;
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}
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path = path.concat(selectorPath.slice(currentSelectorPathIndex, match.pathIndex));
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path.push(new tree.Selector(
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selector.elements
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.slice(currentSelectorPathElementIndex, match.index)
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.concat([firstElement])
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.concat(replacementSelector.elements.slice(1))
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));
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currentSelectorPathIndex = match.endPathIndex;
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currentSelectorPathElementIndex = match.endPathElementIndex;
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if (currentSelectorPathElementIndex >= selector.elements.length) {
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currentSelectorPathElementIndex = 0;
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currentSelectorPathIndex++;
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}
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}
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if (currentSelectorPathIndex < selectorPath.length && currentSelectorPathElementIndex > 0) {
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path[path.length - 1].elements = path[path.length - 1].elements.concat(selectorPath[currentSelectorPathIndex].elements.slice(currentSelectorPathElementIndex));
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currentSelectorPathElementIndex = 0;
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currentSelectorPathIndex++;
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}
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path = path.concat(selectorPath.slice(currentSelectorPathIndex, selectorPath.length));
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return path;
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},
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visitRulesetOut: function (rulesetNode) {
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},
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visitMedia: function (mediaNode, visitArgs) {
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this.allExtendsStack.push(mediaNode.allExtends.concat(this.allExtendsStack[this.allExtendsStack.length-1]));
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},
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visitMediaOut: function (mediaNode) {
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this.allExtendsStack.length = this.allExtendsStack.length - 1;
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},
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visitDirective: function (directiveNode, visitArgs) {
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this.allExtendsStack.push(directiveNode.allExtends.concat(this.allExtendsStack[this.allExtendsStack.length-1]));
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},
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visitDirectiveOut: function (directiveNode) {
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this.allExtendsStack.length = this.allExtendsStack.length - 1;
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}
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};
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})(require('./tree')); |