src/third_party/devtools/node_modules/eslint/lib/linter/node-event-generator.js - cobalt - Git at Google

 /**
  * @fileoverview The event generator for AST nodes.
  * @author Toru Nagashima
  */

 "use strict";

 //------------------------------------------------------------------------------
 // Requirements
 //------------------------------------------------------------------------------

 const esquery = require("esquery");
 const lodash = require("lodash");

 //------------------------------------------------------------------------------
 // Typedefs
 //------------------------------------------------------------------------------

 /**
  * An object describing an AST selector
  * @typedef {Object} ASTSelector
  * @property {string} rawSelector The string that was parsed into this selector
  * @property {boolean} isExit `true` if this should be emitted when exiting the node rather than when entering
  * @property {Object} parsedSelector An object (from esquery) describing the matching behavior of the selector
  * @property {string[]|null} listenerTypes A list of node types that could possibly cause the selector to match,
  * or `null` if all node types could cause a match
  * @property {number} attributeCount The total number of classes, pseudo-classes, and attribute queries in this selector
  * @property {number} identifierCount The total number of identifier queries in this selector
  */

 //------------------------------------------------------------------------------
 // Helpers
 //------------------------------------------------------------------------------

 /**
  * Gets the possible types of a selector
  * @param {Object} parsedSelector An object (from esquery) describing the matching behavior of the selector
  * @returns {string[]|null} The node types that could possibly trigger this selector, or `null` if all node types could trigger it
  */
 function getPossibleTypes(parsedSelector) {
     switch (parsedSelector.type) {
         case "identifier":
             return [parsedSelector.value];

         case "matches": {
             const typesForComponents = parsedSelector.selectors.map(getPossibleTypes);

             if (typesForComponents.every(Boolean)) {
                 return lodash.union(...typesForComponents);
             }
             return null;
         }

         case "compound": {
             const typesForComponents = parsedSelector.selectors.map(getPossibleTypes).filter(typesForComponent => typesForComponent);

             // If all of the components could match any type, then the compound could also match any type.
             if (!typesForComponents.length) {
                 return null;
             }

             /*
              * If at least one of the components could only match a particular type, the compound could only match
              * the intersection of those types.
              */
             return lodash.intersection(...typesForComponents);
         }

         case "child":
         case "descendant":
         case "sibling":
         case "adjacent":
             return getPossibleTypes(parsedSelector.right);

         default:
             return null;

     }
 }

 /**
  * Counts the number of class, pseudo-class, and attribute queries in this selector
  * @param {Object} parsedSelector An object (from esquery) describing the selector's matching behavior
  * @returns {number} The number of class, pseudo-class, and attribute queries in this selector
  */
 function countClassAttributes(parsedSelector) {
     switch (parsedSelector.type) {
         case "child":
         case "descendant":
         case "sibling":
         case "adjacent":
             return countClassAttributes(parsedSelector.left) + countClassAttributes(parsedSelector.right);

         case "compound":
         case "not":
         case "matches":
             return parsedSelector.selectors.reduce((sum, childSelector) => sum + countClassAttributes(childSelector), 0);

         case "attribute":
         case "field":
         case "nth-child":
         case "nth-last-child":
             return 1;

         default:
             return 0;
     }
 }

 /**
  * Counts the number of identifier queries in this selector
  * @param {Object} parsedSelector An object (from esquery) describing the selector's matching behavior
  * @returns {number} The number of identifier queries
  */
 function countIdentifiers(parsedSelector) {
     switch (parsedSelector.type) {
         case "child":
         case "descendant":
         case "sibling":
         case "adjacent":
             return countIdentifiers(parsedSelector.left) + countIdentifiers(parsedSelector.right);

         case "compound":
         case "not":
         case "matches":
             return parsedSelector.selectors.reduce((sum, childSelector) => sum + countIdentifiers(childSelector), 0);

         case "identifier":
             return 1;

         default:
             return 0;
     }
 }

 /**
  * Compares the specificity of two selector objects, with CSS-like rules.
  * @param {ASTSelector} selectorA An AST selector descriptor
  * @param {ASTSelector} selectorB Another AST selector descriptor
  * @returns {number}
  * a value less than 0 if selectorA is less specific than selectorB
  * a value greater than 0 if selectorA is more specific than selectorB
  * a value less than 0 if selectorA and selectorB have the same specificity, and selectorA <= selectorB alphabetically
  * a value greater than 0 if selectorA and selectorB have the same specificity, and selectorA > selectorB alphabetically
  */
 function compareSpecificity(selectorA, selectorB) {
     return selectorA.attributeCount - selectorB.attributeCount ||
         selectorA.identifierCount - selectorB.identifierCount ||
         (selectorA.rawSelector <= selectorB.rawSelector ? -1 : 1);
 }

 /**
  * Parses a raw selector string, and throws a useful error if parsing fails.
  * @param {string} rawSelector A raw AST selector
  * @returns {Object} An object (from esquery) describing the matching behavior of this selector
  * @throws {Error} An error if the selector is invalid
  */
 function tryParseSelector(rawSelector) {
     try {
         return esquery.parse(rawSelector.replace(/:exit$/u, ""));
     } catch (err) {
         if (typeof err.offset === "number") {
             throw new SyntaxError(`Syntax error in selector "${rawSelector}" at position ${err.offset}: ${err.message}`);
         }
         throw err;
     }
 }

 /**
  * Parses a raw selector string, and returns the parsed selector along with specificity and type information.
  * @param {string} rawSelector A raw AST selector
  * @returns {ASTSelector} A selector descriptor
  */
 const parseSelector = lodash.memoize(rawSelector => {
     const parsedSelector = tryParseSelector(rawSelector);

     return {
         rawSelector,
         isExit: rawSelector.endsWith(":exit"),
         parsedSelector,
         listenerTypes: getPossibleTypes(parsedSelector),
         attributeCount: countClassAttributes(parsedSelector),
         identifierCount: countIdentifiers(parsedSelector)
     };
 });

 //------------------------------------------------------------------------------
 // Public Interface
 //------------------------------------------------------------------------------

 /**
  * The event generator for AST nodes.
  * This implements below interface.
  *
  * ```ts
  * interface EventGenerator {
  *     emitter: SafeEmitter;
  *     enterNode(node: ASTNode): void;
  *     leaveNode(node: ASTNode): void;
  * }
  * ```
  */
 class NodeEventGenerator {

     /**
      * @param {SafeEmitter} emitter
      * An SafeEmitter which is the destination of events. This emitter must already
      * have registered listeners for all of the events that it needs to listen for.
      * (See lib/linter/safe-emitter.js for more details on `SafeEmitter`.)
      * @returns {NodeEventGenerator} new instance
      */
     constructor(emitter) {
         this.emitter = emitter;
         this.currentAncestry = [];
         this.enterSelectorsByNodeType = new Map();
         this.exitSelectorsByNodeType = new Map();
         this.anyTypeEnterSelectors = [];
         this.anyTypeExitSelectors = [];

         emitter.eventNames().forEach(rawSelector => {
             const selector = parseSelector(rawSelector);

             if (selector.listenerTypes) {
                 const typeMap = selector.isExit ? this.exitSelectorsByNodeType : this.enterSelectorsByNodeType;

                 selector.listenerTypes.forEach(nodeType => {
                     if (!typeMap.has(nodeType)) {
                         typeMap.set(nodeType, []);
                     }
                     typeMap.get(nodeType).push(selector);
                 });
                 return;
             }
             const selectors = selector.isExit ? this.anyTypeExitSelectors : this.anyTypeEnterSelectors;

             selectors.push(selector);
         });

         this.anyTypeEnterSelectors.sort(compareSpecificity);
         this.anyTypeExitSelectors.sort(compareSpecificity);
         this.enterSelectorsByNodeType.forEach(selectorList => selectorList.sort(compareSpecificity));
         this.exitSelectorsByNodeType.forEach(selectorList => selectorList.sort(compareSpecificity));
     }

     /**
      * Checks a selector against a node, and emits it if it matches
      * @param {ASTNode} node The node to check
      * @param {ASTSelector} selector An AST selector descriptor
      * @returns {void}
      */
     applySelector(node, selector) {
         if (esquery.matches(node, selector.parsedSelector, this.currentAncestry)) {
             this.emitter.emit(selector.rawSelector, node);
         }
     }

     /**
      * Applies all appropriate selectors to a node, in specificity order
      * @param {ASTNode} node The node to check
      * @param {boolean} isExit `false` if the node is currently being entered, `true` if it's currently being exited
      * @returns {void}
      */
     applySelectors(node, isExit) {
         const selectorsByNodeType = (isExit ? this.exitSelectorsByNodeType : this.enterSelectorsByNodeType).get(node.type) || [];
         const anyTypeSelectors = isExit ? this.anyTypeExitSelectors : this.anyTypeEnterSelectors;

         /*
          * selectorsByNodeType and anyTypeSelectors were already sorted by specificity in the constructor.
          * Iterate through each of them, applying selectors in the right order.
          */
         let selectorsByTypeIndex = 0;
         let anyTypeSelectorsIndex = 0;

         while (selectorsByTypeIndex < selectorsByNodeType.length || anyTypeSelectorsIndex < anyTypeSelectors.length) {
             if (
                 selectorsByTypeIndex >= selectorsByNodeType.length ||
                 anyTypeSelectorsIndex < anyTypeSelectors.length &&
                 compareSpecificity(anyTypeSelectors[anyTypeSelectorsIndex], selectorsByNodeType[selectorsByTypeIndex]) < 0
             ) {
                 this.applySelector(node, anyTypeSelectors[anyTypeSelectorsIndex++]);
             } else {
                 this.applySelector(node, selectorsByNodeType[selectorsByTypeIndex++]);
             }
         }
     }

     /**
      * Emits an event of entering AST node.
      * @param {ASTNode} node - A node which was entered.
      * @returns {void}
      */
     enterNode(node) {
         if (node.parent) {
             this.currentAncestry.unshift(node.parent);
         }
         this.applySelectors(node, false);
     }

     /**
      * Emits an event of leaving AST node.
      * @param {ASTNode} node - A node which was left.
      * @returns {void}
      */
     leaveNode(node) {
         this.applySelectors(node, true);
         this.currentAncestry.shift();
     }
 }

 module.exports = NodeEventGenerator;
	/**
	* @fileoverview The event generator for AST nodes.
	* @author Toru Nagashima
	*/

	"use strict";

	//------------------------------------------------------------------------------
	// Requirements
	//------------------------------------------------------------------------------

	const esquery = require("esquery");
	const lodash = require("lodash");

	//------------------------------------------------------------------------------
	// Typedefs
	//------------------------------------------------------------------------------

	/**
	* An object describing an AST selector
	* @typedef {Object} ASTSelector
	* @property {string} rawSelector The string that was parsed into this selector
	* @property {boolean} isExit `true` if this should be emitted when exiting the node rather than when entering
	* @property {Object} parsedSelector An object (from esquery) describing the matching behavior of the selector
	* @property {string[]\|null} listenerTypes A list of node types that could possibly cause the selector to match,
	* or `null` if all node types could cause a match
	* @property {number} attributeCount The total number of classes, pseudo-classes, and attribute queries in this selector
	* @property {number} identifierCount The total number of identifier queries in this selector
	*/

	//------------------------------------------------------------------------------
	// Helpers
	//------------------------------------------------------------------------------

	/**
	* Gets the possible types of a selector
	* @param {Object} parsedSelector An object (from esquery) describing the matching behavior of the selector
	* @returns {string[]\|null} The node types that could possibly trigger this selector, or `null` if all node types could trigger it
	*/
	function getPossibleTypes(parsedSelector) {
	switch (parsedSelector.type) {
	case "identifier":
	return [parsedSelector.value];

	case "matches": {
	const typesForComponents = parsedSelector.selectors.map(getPossibleTypes);

	if (typesForComponents.every(Boolean)) {
	return lodash.union(...typesForComponents);
	}
	return null;
	}

	case "compound": {
	const typesForComponents = parsedSelector.selectors.map(getPossibleTypes).filter(typesForComponent => typesForComponent);

	// If all of the components could match any type, then the compound could also match any type.
	if (!typesForComponents.length) {
	return null;
	}

	/*
	* If at least one of the components could only match a particular type, the compound could only match
	* the intersection of those types.
	*/
	return lodash.intersection(...typesForComponents);
	}

	case "child":
	case "descendant":
	case "sibling":
	case "adjacent":
	return getPossibleTypes(parsedSelector.right);

	default:
	return null;

	}
	}

	/**
	* Counts the number of class, pseudo-class, and attribute queries in this selector
	* @param {Object} parsedSelector An object (from esquery) describing the selector's matching behavior
	* @returns {number} The number of class, pseudo-class, and attribute queries in this selector
	*/
	function countClassAttributes(parsedSelector) {
	switch (parsedSelector.type) {
	case "child":
	case "descendant":
	case "sibling":
	case "adjacent":
	return countClassAttributes(parsedSelector.left) + countClassAttributes(parsedSelector.right);

	case "compound":
	case "not":
	case "matches":
	return parsedSelector.selectors.reduce((sum, childSelector) => sum + countClassAttributes(childSelector), 0);

	case "attribute":
	case "field":
	case "nth-child":
	case "nth-last-child":
	return 1;

	default:
	return 0;
	}
	}

	/**
	* Counts the number of identifier queries in this selector
	* @param {Object} parsedSelector An object (from esquery) describing the selector's matching behavior
	* @returns {number} The number of identifier queries
	*/
	function countIdentifiers(parsedSelector) {
	switch (parsedSelector.type) {
	case "child":
	case "descendant":
	case "sibling":
	case "adjacent":
	return countIdentifiers(parsedSelector.left) + countIdentifiers(parsedSelector.right);

	case "compound":
	case "not":
	case "matches":
	return parsedSelector.selectors.reduce((sum, childSelector) => sum + countIdentifiers(childSelector), 0);

	case "identifier":
	return 1;

	default:
	return 0;
	}
	}

	/**
	* Compares the specificity of two selector objects, with CSS-like rules.
	* @param {ASTSelector} selectorA An AST selector descriptor
	* @param {ASTSelector} selectorB Another AST selector descriptor
	* @returns {number}
	* a value less than 0 if selectorA is less specific than selectorB
	* a value greater than 0 if selectorA is more specific than selectorB
	* a value less than 0 if selectorA and selectorB have the same specificity, and selectorA <= selectorB alphabetically
	* a value greater than 0 if selectorA and selectorB have the same specificity, and selectorA > selectorB alphabetically
	*/
	function compareSpecificity(selectorA, selectorB) {
	return selectorA.attributeCount - selectorB.attributeCount \|\|
	selectorA.identifierCount - selectorB.identifierCount \|\|
	(selectorA.rawSelector <= selectorB.rawSelector ? -1 : 1);
	}

	/**
	* Parses a raw selector string, and throws a useful error if parsing fails.
	* @param {string} rawSelector A raw AST selector
	* @returns {Object} An object (from esquery) describing the matching behavior of this selector
	* @throws {Error} An error if the selector is invalid
	*/
	function tryParseSelector(rawSelector) {
	try {
	return esquery.parse(rawSelector.replace(/:exit$/u, ""));
	} catch (err) {
	if (typeof err.offset === "number") {
	throw new SyntaxError(`Syntax error in selector "${rawSelector}" at position ${err.offset}: ${err.message}`);
	}
	throw err;
	}
	}

	/**
	* Parses a raw selector string, and returns the parsed selector along with specificity and type information.
	* @param {string} rawSelector A raw AST selector
	* @returns {ASTSelector} A selector descriptor
	*/
	const parseSelector = lodash.memoize(rawSelector => {
	const parsedSelector = tryParseSelector(rawSelector);

	return {
	rawSelector,
	isExit: rawSelector.endsWith(":exit"),
	parsedSelector,
	listenerTypes: getPossibleTypes(parsedSelector),
	attributeCount: countClassAttributes(parsedSelector),
	identifierCount: countIdentifiers(parsedSelector)
	};
	});

	//------------------------------------------------------------------------------
	// Public Interface
	//------------------------------------------------------------------------------

	/**
	* The event generator for AST nodes.
	* This implements below interface.
	*
	* ```ts
	* interface EventGenerator {
	* emitter: SafeEmitter;
	* enterNode(node: ASTNode): void;
	* leaveNode(node: ASTNode): void;
	* }
	* ```
	*/
	class NodeEventGenerator {

	/**
	* @param {SafeEmitter} emitter
	* An SafeEmitter which is the destination of events. This emitter must already
	* have registered listeners for all of the events that it needs to listen for.
	* (See lib/linter/safe-emitter.js for more details on `SafeEmitter`.)
	* @returns {NodeEventGenerator} new instance
	*/
	constructor(emitter) {
	this.emitter = emitter;
	this.currentAncestry = [];
	this.enterSelectorsByNodeType = new Map();
	this.exitSelectorsByNodeType = new Map();
	this.anyTypeEnterSelectors = [];
	this.anyTypeExitSelectors = [];

	emitter.eventNames().forEach(rawSelector => {
	const selector = parseSelector(rawSelector);

	if (selector.listenerTypes) {
	const typeMap = selector.isExit ? this.exitSelectorsByNodeType : this.enterSelectorsByNodeType;

	selector.listenerTypes.forEach(nodeType => {
	if (!typeMap.has(nodeType)) {
	typeMap.set(nodeType, []);
	}
	typeMap.get(nodeType).push(selector);
	});
	return;
	}
	const selectors = selector.isExit ? this.anyTypeExitSelectors : this.anyTypeEnterSelectors;

	selectors.push(selector);
	});

	this.anyTypeEnterSelectors.sort(compareSpecificity);
	this.anyTypeExitSelectors.sort(compareSpecificity);
	this.enterSelectorsByNodeType.forEach(selectorList => selectorList.sort(compareSpecificity));
	this.exitSelectorsByNodeType.forEach(selectorList => selectorList.sort(compareSpecificity));
	}

	/**
	* Checks a selector against a node, and emits it if it matches
	* @param {ASTNode} node The node to check
	* @param {ASTSelector} selector An AST selector descriptor
	* @returns {void}
	*/
	applySelector(node, selector) {
	if (esquery.matches(node, selector.parsedSelector, this.currentAncestry)) {
	this.emitter.emit(selector.rawSelector, node);
	}
	}

	/**
	* Applies all appropriate selectors to a node, in specificity order
	* @param {ASTNode} node The node to check
	* @param {boolean} isExit `false` if the node is currently being entered, `true` if it's currently being exited
	* @returns {void}
	*/
	applySelectors(node, isExit) {
	const selectorsByNodeType = (isExit ? this.exitSelectorsByNodeType : this.enterSelectorsByNodeType).get(node.type) \|\| [];
	const anyTypeSelectors = isExit ? this.anyTypeExitSelectors : this.anyTypeEnterSelectors;

	/*
	* selectorsByNodeType and anyTypeSelectors were already sorted by specificity in the constructor.
	* Iterate through each of them, applying selectors in the right order.
	*/
	let selectorsByTypeIndex = 0;
	let anyTypeSelectorsIndex = 0;

	while (selectorsByTypeIndex < selectorsByNodeType.length \|\| anyTypeSelectorsIndex < anyTypeSelectors.length) {
	if (
	selectorsByTypeIndex >= selectorsByNodeType.length \|\|
	anyTypeSelectorsIndex < anyTypeSelectors.length &&
	compareSpecificity(anyTypeSelectors[anyTypeSelectorsIndex], selectorsByNodeType[selectorsByTypeIndex]) < 0
	) {
	this.applySelector(node, anyTypeSelectors[anyTypeSelectorsIndex++]);
	} else {
	this.applySelector(node, selectorsByNodeType[selectorsByTypeIndex++]);
	}
	}
	}

	/**
	* Emits an event of entering AST node.
	* @param {ASTNode} node - A node which was entered.
	* @returns {void}
	*/
	enterNode(node) {
	if (node.parent) {
	this.currentAncestry.unshift(node.parent);
	}
	this.applySelectors(node, false);
	}

	/**
	* Emits an event of leaving AST node.
	* @param {ASTNode} node - A node which was left.
	* @returns {void}
	*/
	leaveNode(node) {
	this.applySelectors(node, true);
	this.currentAncestry.shift();
	}
	}

	module.exports = NodeEventGenerator;