/** * @fileoverview Abstraction of JavaScript source code. * @author Nicholas C. Zakas */ "use strict"; //------------------------------------------------------------------------------ // Requirements //------------------------------------------------------------------------------ const { isCommentToken } = require("@eslint-community/eslint-utils"), TokenStore = require("./token-store"), astUtils = require("../shared/ast-utils"), Traverser = require("../shared/traverser"), globals = require("../../conf/globals"), { directivesPattern } = require("../shared/directives"), /* eslint-disable-next-line n/no-restricted-require -- Too messy to figure out right now. */ ConfigCommentParser = require("../linter/config-comment-parser"), eslintScope = require("eslint-scope"); //------------------------------------------------------------------------------ // Type Definitions //------------------------------------------------------------------------------ /** @typedef {import("eslint-scope").Variable} Variable */ //------------------------------------------------------------------------------ // Private //------------------------------------------------------------------------------ const commentParser = new ConfigCommentParser(); /** * Validates that the given AST has the required information. * @param {ASTNode} ast The Program node of the AST to check. * @throws {Error} If the AST doesn't contain the correct information. * @returns {void} * @private */ function validate(ast) { if (!ast.tokens) { throw new Error("AST is missing the tokens array."); } if (!ast.comments) { throw new Error("AST is missing the comments array."); } if (!ast.loc) { throw new Error("AST is missing location information."); } if (!ast.range) { throw new Error("AST is missing range information"); } } /** * Retrieves globals for the given ecmaVersion. * @param {number} ecmaVersion The version to retrieve globals for. * @returns {Object} The globals for the given ecmaVersion. */ function getGlobalsForEcmaVersion(ecmaVersion) { switch (ecmaVersion) { case 3: return globals.es3; case 5: return globals.es5; default: if (ecmaVersion < 2015) { return globals[`es${ecmaVersion + 2009}`]; } return globals[`es${ecmaVersion}`]; } } /** * Check to see if its a ES6 export declaration. * @param {ASTNode} astNode An AST node. * @returns {boolean} whether the given node represents an export declaration. * @private */ function looksLikeExport(astNode) { return astNode.type === "ExportDefaultDeclaration" || astNode.type === "ExportNamedDeclaration" || astNode.type === "ExportAllDeclaration" || astNode.type === "ExportSpecifier"; } /** * Merges two sorted lists into a larger sorted list in O(n) time. * @param {Token[]} tokens The list of tokens. * @param {Token[]} comments The list of comments. * @returns {Token[]} A sorted list of tokens and comments. * @private */ function sortedMerge(tokens, comments) { const result = []; let tokenIndex = 0; let commentIndex = 0; while (tokenIndex < tokens.length || commentIndex < comments.length) { if (commentIndex >= comments.length || tokenIndex < tokens.length && tokens[tokenIndex].range[0] < comments[commentIndex].range[0]) { result.push(tokens[tokenIndex++]); } else { result.push(comments[commentIndex++]); } } return result; } /** * Normalizes a value for a global in a config * @param {(boolean|string|null)} configuredValue The value given for a global in configuration or in * a global directive comment * @returns {("readable"|"writeable"|"off")} The value normalized as a string * @throws Error if global value is invalid */ function normalizeConfigGlobal(configuredValue) { switch (configuredValue) { case "off": return "off"; case true: case "true": case "writeable": case "writable": return "writable"; case null: case false: case "false": case "readable": case "readonly": return "readonly"; default: throw new Error(`'${configuredValue}' is not a valid configuration for a global (use 'readonly', 'writable', or 'off')`); } } /** * Determines if two nodes or tokens overlap. * @param {ASTNode|Token} first The first node or token to check. * @param {ASTNode|Token} second The second node or token to check. * @returns {boolean} True if the two nodes or tokens overlap. * @private */ function nodesOrTokensOverlap(first, second) { return (first.range[0] <= second.range[0] && first.range[1] >= second.range[0]) || (second.range[0] <= first.range[0] && second.range[1] >= first.range[0]); } /** * Determines if two nodes or tokens have at least one whitespace character * between them. Order does not matter. Returns false if the given nodes or * tokens overlap. * @param {SourceCode} sourceCode The source code object. * @param {ASTNode|Token} first The first node or token to check between. * @param {ASTNode|Token} second The second node or token to check between. * @param {boolean} checkInsideOfJSXText If `true` is present, check inside of JSXText tokens for backward compatibility. * @returns {boolean} True if there is a whitespace character between * any of the tokens found between the two given nodes or tokens. * @public */ function isSpaceBetween(sourceCode, first, second, checkInsideOfJSXText) { if (nodesOrTokensOverlap(first, second)) { return false; } const [startingNodeOrToken, endingNodeOrToken] = first.range[1] <= second.range[0] ? [first, second] : [second, first]; const firstToken = sourceCode.getLastToken(startingNodeOrToken) || startingNodeOrToken; const finalToken = sourceCode.getFirstToken(endingNodeOrToken) || endingNodeOrToken; let currentToken = firstToken; while (currentToken !== finalToken) { const nextToken = sourceCode.getTokenAfter(currentToken, { includeComments: true }); if ( currentToken.range[1] !== nextToken.range[0] || /* * For backward compatibility, check spaces in JSXText. * https://github.com/eslint/eslint/issues/12614 */ ( checkInsideOfJSXText && nextToken !== finalToken && nextToken.type === "JSXText" && /\s/u.test(nextToken.value) ) ) { return true; } currentToken = nextToken; } return false; } //----------------------------------------------------------------------------- // Directive Comments //----------------------------------------------------------------------------- /** * Ensures that variables representing built-in properties of the Global Object, * and any globals declared by special block comments, are present in the global * scope. * @param {Scope} globalScope The global scope. * @param {Object|undefined} configGlobals The globals declared in configuration * @param {Object|undefined} inlineGlobals The globals declared in the source code * @returns {void} */ function addDeclaredGlobals(globalScope, configGlobals = {}, inlineGlobals = {}) { // Define configured global variables. for (const id of new Set([...Object.keys(configGlobals), ...Object.keys(inlineGlobals)])) { /* * `normalizeConfigGlobal` will throw an error if a configured global value is invalid. However, these errors would * typically be caught when validating a config anyway (validity for inline global comments is checked separately). */ const configValue = configGlobals[id] === void 0 ? void 0 : normalizeConfigGlobal(configGlobals[id]); const commentValue = inlineGlobals[id] && inlineGlobals[id].value; const value = commentValue || configValue; const sourceComments = inlineGlobals[id] && inlineGlobals[id].comments; if (value === "off") { continue; } let variable = globalScope.set.get(id); if (!variable) { variable = new eslintScope.Variable(id, globalScope); globalScope.variables.push(variable); globalScope.set.set(id, variable); } variable.eslintImplicitGlobalSetting = configValue; variable.eslintExplicitGlobal = sourceComments !== void 0; variable.eslintExplicitGlobalComments = sourceComments; variable.writeable = (value === "writable"); } /* * "through" contains all references which definitions cannot be found. * Since we augment the global scope using configuration, we need to update * references and remove the ones that were added by configuration. */ globalScope.through = globalScope.through.filter(reference => { const name = reference.identifier.name; const variable = globalScope.set.get(name); if (variable) { /* * Links the variable and the reference. * And this reference is removed from `Scope#through`. */ reference.resolved = variable; variable.references.push(reference); return false; } return true; }); } /** * Sets the given variable names as exported so they won't be triggered by * the `no-unused-vars` rule. * @param {eslint.Scope} globalScope The global scope to define exports in. * @param {Record} variables An object whose keys are the variable * names to export. * @returns {void} */ function markExportedVariables(globalScope, variables) { Object.keys(variables).forEach(name => { const variable = globalScope.set.get(name); if (variable) { variable.eslintUsed = true; variable.eslintExported = true; } }); } //------------------------------------------------------------------------------ // Public Interface //------------------------------------------------------------------------------ const caches = Symbol("caches"); /** * Represents parsed source code. */ class SourceCode extends TokenStore { /** * @param {string|Object} textOrConfig The source code text or config object. * @param {string} textOrConfig.text The source code text. * @param {ASTNode} textOrConfig.ast The Program node of the AST representing the code. This AST should be created from the text that BOM was stripped. * @param {Object|null} textOrConfig.parserServices The parser services. * @param {ScopeManager|null} textOrConfig.scopeManager The scope of this source code. * @param {Object|null} textOrConfig.visitorKeys The visitor keys to traverse AST. * @param {ASTNode} [astIfNoConfig] The Program node of the AST representing the code. This AST should be created from the text that BOM was stripped. */ constructor(textOrConfig, astIfNoConfig) { let text, ast, parserServices, scopeManager, visitorKeys; // Process overloading. if (typeof textOrConfig === "string") { text = textOrConfig; ast = astIfNoConfig; } else if (typeof textOrConfig === "object" && textOrConfig !== null) { text = textOrConfig.text; ast = textOrConfig.ast; parserServices = textOrConfig.parserServices; scopeManager = textOrConfig.scopeManager; visitorKeys = textOrConfig.visitorKeys; } validate(ast); super(ast.tokens, ast.comments); /** * General purpose caching for the class. */ this[caches] = new Map([ ["scopes", new WeakMap()], ["vars", new Map()], ["configNodes", void 0] ]); /** * The flag to indicate that the source code has Unicode BOM. * @type {boolean} */ this.hasBOM = (text.charCodeAt(0) === 0xFEFF); /** * The original text source code. * BOM was stripped from this text. * @type {string} */ this.text = (this.hasBOM ? text.slice(1) : text); /** * The parsed AST for the source code. * @type {ASTNode} */ this.ast = ast; /** * The parser services of this source code. * @type {Object} */ this.parserServices = parserServices || {}; /** * The scope of this source code. * @type {ScopeManager|null} */ this.scopeManager = scopeManager || null; /** * The visitor keys to traverse AST. * @type {Object} */ this.visitorKeys = visitorKeys || Traverser.DEFAULT_VISITOR_KEYS; // Check the source text for the presence of a shebang since it is parsed as a standard line comment. const shebangMatched = this.text.match(astUtils.shebangPattern); const hasShebang = shebangMatched && ast.comments.length && ast.comments[0].value === shebangMatched[1]; if (hasShebang) { ast.comments[0].type = "Shebang"; } this.tokensAndComments = sortedMerge(ast.tokens, ast.comments); /** * The source code split into lines according to ECMA-262 specification. * This is done to avoid each rule needing to do so separately. * @type {string[]} */ this.lines = []; this.lineStartIndices = [0]; const lineEndingPattern = astUtils.createGlobalLinebreakMatcher(); let match; /* * Previously, this was implemented using a regex that * matched a sequence of non-linebreak characters followed by a * linebreak, then adding the lengths of the matches. However, * this caused a catastrophic backtracking issue when the end * of a file contained a large number of non-newline characters. * To avoid this, the current implementation just matches newlines * and uses match.index to get the correct line start indices. */ while ((match = lineEndingPattern.exec(this.text))) { this.lines.push(this.text.slice(this.lineStartIndices[this.lineStartIndices.length - 1], match.index)); this.lineStartIndices.push(match.index + match[0].length); } this.lines.push(this.text.slice(this.lineStartIndices[this.lineStartIndices.length - 1])); // Cache for comments found using getComments(). this._commentCache = new WeakMap(); // don't allow further modification of this object Object.freeze(this); Object.freeze(this.lines); } /** * Split the source code into multiple lines based on the line delimiters. * @param {string} text Source code as a string. * @returns {string[]} Array of source code lines. * @public */ static splitLines(text) { return text.split(astUtils.createGlobalLinebreakMatcher()); } /** * Gets the source code for the given node. * @param {ASTNode} [node] The AST node to get the text for. * @param {int} [beforeCount] The number of characters before the node to retrieve. * @param {int} [afterCount] The number of characters after the node to retrieve. * @returns {string} The text representing the AST node. * @public */ getText(node, beforeCount, afterCount) { if (node) { return this.text.slice(Math.max(node.range[0] - (beforeCount || 0), 0), node.range[1] + (afterCount || 0)); } return this.text; } /** * Gets the entire source text split into an array of lines. * @returns {Array} The source text as an array of lines. * @public */ getLines() { return this.lines; } /** * Retrieves an array containing all comments in the source code. * @returns {ASTNode[]} An array of comment nodes. * @public */ getAllComments() { return this.ast.comments; } /** * Gets all comments for the given node. * @param {ASTNode} node The AST node to get the comments for. * @returns {Object} An object containing a leading and trailing array * of comments indexed by their position. * @public * @deprecated replaced by getCommentsBefore(), getCommentsAfter(), and getCommentsInside(). */ getComments(node) { if (this._commentCache.has(node)) { return this._commentCache.get(node); } const comments = { leading: [], trailing: [] }; /* * Return all comments as leading comments of the Program node when * there is no executable code. */ if (node.type === "Program") { if (node.body.length === 0) { comments.leading = node.comments; } } else { /* * Return comments as trailing comments of nodes that only contain * comments (to mimic the comment attachment behavior present in Espree). */ if ((node.type === "BlockStatement" || node.type === "ClassBody") && node.body.length === 0 || node.type === "ObjectExpression" && node.properties.length === 0 || node.type === "ArrayExpression" && node.elements.length === 0 || node.type === "SwitchStatement" && node.cases.length === 0 ) { comments.trailing = this.getTokens(node, { includeComments: true, filter: isCommentToken }); } /* * Iterate over tokens before and after node and collect comment tokens. * Do not include comments that exist outside of the parent node * to avoid duplication. */ let currentToken = this.getTokenBefore(node, { includeComments: true }); while (currentToken && isCommentToken(currentToken)) { if (node.parent && node.parent.type !== "Program" && (currentToken.start < node.parent.start)) { break; } comments.leading.push(currentToken); currentToken = this.getTokenBefore(currentToken, { includeComments: true }); } comments.leading.reverse(); currentToken = this.getTokenAfter(node, { includeComments: true }); while (currentToken && isCommentToken(currentToken)) { if (node.parent && node.parent.type !== "Program" && (currentToken.end > node.parent.end)) { break; } comments.trailing.push(currentToken); currentToken = this.getTokenAfter(currentToken, { includeComments: true }); } } this._commentCache.set(node, comments); return comments; } /** * Retrieves the JSDoc comment for a given node. * @param {ASTNode} node The AST node to get the comment for. * @returns {Token|null} The Block comment token containing the JSDoc comment * for the given node or null if not found. * @public * @deprecated */ getJSDocComment(node) { /** * Checks for the presence of a JSDoc comment for the given node and returns it. * @param {ASTNode} astNode The AST node to get the comment for. * @returns {Token|null} The Block comment token containing the JSDoc comment * for the given node or null if not found. * @private */ const findJSDocComment = astNode => { const tokenBefore = this.getTokenBefore(astNode, { includeComments: true }); if ( tokenBefore && isCommentToken(tokenBefore) && tokenBefore.type === "Block" && tokenBefore.value.charAt(0) === "*" && astNode.loc.start.line - tokenBefore.loc.end.line <= 1 ) { return tokenBefore; } return null; }; let parent = node.parent; switch (node.type) { case "ClassDeclaration": case "FunctionDeclaration": return findJSDocComment(looksLikeExport(parent) ? parent : node); case "ClassExpression": return findJSDocComment(parent.parent); case "ArrowFunctionExpression": case "FunctionExpression": if (parent.type !== "CallExpression" && parent.type !== "NewExpression") { while ( !this.getCommentsBefore(parent).length && !/Function/u.test(parent.type) && parent.type !== "MethodDefinition" && parent.type !== "Property" ) { parent = parent.parent; if (!parent) { break; } } if (parent && parent.type !== "FunctionDeclaration" && parent.type !== "Program") { return findJSDocComment(parent); } } return findJSDocComment(node); // falls through default: return null; } } /** * Gets the deepest node containing a range index. * @param {int} index Range index of the desired node. * @returns {ASTNode} The node if found or null if not found. * @public */ getNodeByRangeIndex(index) { let result = null; Traverser.traverse(this.ast, { visitorKeys: this.visitorKeys, enter(node) { if (node.range[0] <= index && index < node.range[1]) { result = node; } else { this.skip(); } }, leave(node) { if (node === result) { this.break(); } } }); return result; } /** * Determines if two nodes or tokens have at least one whitespace character * between them. Order does not matter. Returns false if the given nodes or * tokens overlap. * @param {ASTNode|Token} first The first node or token to check between. * @param {ASTNode|Token} second The second node or token to check between. * @returns {boolean} True if there is a whitespace character between * any of the tokens found between the two given nodes or tokens. * @public */ isSpaceBetween(first, second) { return isSpaceBetween(this, first, second, false); } /** * Determines if two nodes or tokens have at least one whitespace character * between them. Order does not matter. Returns false if the given nodes or * tokens overlap. * For backward compatibility, this method returns true if there are * `JSXText` tokens that contain whitespaces between the two. * @param {ASTNode|Token} first The first node or token to check between. * @param {ASTNode|Token} second The second node or token to check between. * @returns {boolean} True if there is a whitespace character between * any of the tokens found between the two given nodes or tokens. * @deprecated in favor of isSpaceBetween(). * @public */ isSpaceBetweenTokens(first, second) { return isSpaceBetween(this, first, second, true); } /** * Converts a source text index into a (line, column) pair. * @param {number} index The index of a character in a file * @throws {TypeError} If non-numeric index or index out of range. * @returns {Object} A {line, column} location object with a 0-indexed column * @public */ getLocFromIndex(index) { if (typeof index !== "number") { throw new TypeError("Expected `index` to be a number."); } if (index < 0 || index > this.text.length) { throw new RangeError(`Index out of range (requested index ${index}, but source text has length ${this.text.length}).`); } /* * For an argument of this.text.length, return the location one "spot" past the last character * of the file. If the last character is a linebreak, the location will be column 0 of the next * line; otherwise, the location will be in the next column on the same line. * * See getIndexFromLoc for the motivation for this special case. */ if (index === this.text.length) { return { line: this.lines.length, column: this.lines[this.lines.length - 1].length }; } /* * To figure out which line index is on, determine the last place at which index could * be inserted into lineStartIndices to keep the list sorted. */ const lineNumber = index >= this.lineStartIndices[this.lineStartIndices.length - 1] ? this.lineStartIndices.length : this.lineStartIndices.findIndex(el => index < el); return { line: lineNumber, column: index - this.lineStartIndices[lineNumber - 1] }; } /** * Converts a (line, column) pair into a range index. * @param {Object} loc A line/column location * @param {number} loc.line The line number of the location (1-indexed) * @param {number} loc.column The column number of the location (0-indexed) * @throws {TypeError|RangeError} If `loc` is not an object with a numeric * `line` and `column`, if the `line` is less than or equal to zero or * the line or column is out of the expected range. * @returns {number} The range index of the location in the file. * @public */ getIndexFromLoc(loc) { if (typeof loc !== "object" || typeof loc.line !== "number" || typeof loc.column !== "number") { throw new TypeError("Expected `loc` to be an object with numeric `line` and `column` properties."); } if (loc.line <= 0) { throw new RangeError(`Line number out of range (line ${loc.line} requested). Line numbers should be 1-based.`); } if (loc.line > this.lineStartIndices.length) { throw new RangeError(`Line number out of range (line ${loc.line} requested, but only ${this.lineStartIndices.length} lines present).`); } const lineStartIndex = this.lineStartIndices[loc.line - 1]; const lineEndIndex = loc.line === this.lineStartIndices.length ? this.text.length : this.lineStartIndices[loc.line]; const positionIndex = lineStartIndex + loc.column; /* * By design, getIndexFromLoc({ line: lineNum, column: 0 }) should return the start index of * the given line, provided that the line number is valid element of this.lines. Since the * last element of this.lines is an empty string for files with trailing newlines, add a * special case where getting the index for the first location after the end of the file * will return the length of the file, rather than throwing an error. This allows rules to * use getIndexFromLoc consistently without worrying about edge cases at the end of a file. */ if ( loc.line === this.lineStartIndices.length && positionIndex > lineEndIndex || loc.line < this.lineStartIndices.length && positionIndex >= lineEndIndex ) { throw new RangeError(`Column number out of range (column ${loc.column} requested, but the length of line ${loc.line} is ${lineEndIndex - lineStartIndex}).`); } return positionIndex; } /** * Gets the scope for the given node * @param {ASTNode} currentNode The node to get the scope of * @returns {eslint-scope.Scope} The scope information for this node * @throws {TypeError} If the `currentNode` argument is missing. */ getScope(currentNode) { if (!currentNode) { throw new TypeError("Missing required argument: node."); } // check cache first const cache = this[caches].get("scopes"); const cachedScope = cache.get(currentNode); if (cachedScope) { return cachedScope; } // On Program node, get the outermost scope to avoid return Node.js special function scope or ES modules scope. const inner = currentNode.type !== "Program"; for (let node = currentNode; node; node = node.parent) { const scope = this.scopeManager.acquire(node, inner); if (scope) { if (scope.type === "function-expression-name") { cache.set(currentNode, scope.childScopes[0]); return scope.childScopes[0]; } cache.set(currentNode, scope); return scope; } } cache.set(currentNode, this.scopeManager.scopes[0]); return this.scopeManager.scopes[0]; } /** * Get the variables that `node` defines. * This is a convenience method that passes through * to the same method on the `scopeManager`. * @param {ASTNode} node The node for which the variables are obtained. * @returns {Array} An array of variable nodes representing * the variables that `node` defines. */ getDeclaredVariables(node) { return this.scopeManager.getDeclaredVariables(node); } /* eslint-disable class-methods-use-this -- node is owned by SourceCode */ /** * Gets all the ancestors of a given node * @param {ASTNode} node The node * @returns {Array} All the ancestor nodes in the AST, not including the provided node, starting * from the root node at index 0 and going inwards to the parent node. * @throws {TypeError} When `node` is missing. */ getAncestors(node) { if (!node) { throw new TypeError("Missing required argument: node."); } const ancestorsStartingAtParent = []; for (let ancestor = node.parent; ancestor; ancestor = ancestor.parent) { ancestorsStartingAtParent.push(ancestor); } return ancestorsStartingAtParent.reverse(); } /* eslint-enable class-methods-use-this -- node is owned by SourceCode */ /** * Marks a variable as used in the current scope * @param {string} name The name of the variable to mark as used. * @param {ASTNode} [refNode] The closest node to the variable reference. * @returns {boolean} True if the variable was found and marked as used, false if not. */ markVariableAsUsed(name, refNode = this.ast) { const currentScope = this.getScope(refNode); let initialScope = currentScope; /* * When we are in an ESM or CommonJS module, we need to start searching * from the top-level scope, not the global scope. For ESM the top-level * scope is the module scope; for CommonJS the top-level scope is the * outer function scope. * * Without this check, we might miss a variable declared with `var` at * the top-level because it won't exist in the global scope. */ if ( currentScope.type === "global" && currentScope.childScopes.length > 0 && // top-level scopes refer to a `Program` node currentScope.childScopes[0].block === this.ast ) { initialScope = currentScope.childScopes[0]; } for (let scope = initialScope; scope; scope = scope.upper) { const variable = scope.variables.find(scopeVar => scopeVar.name === name); if (variable) { variable.eslintUsed = true; return true; } } return false; } /** * Returns an array of all inline configuration nodes found in the * source code. * @returns {Array} An array of all inline configuration nodes. */ getInlineConfigNodes() { // check the cache first let configNodes = this[caches].get("configNodes"); if (configNodes) { return configNodes; } // calculate fresh config nodes configNodes = this.ast.comments.filter(comment => { // shebang comments are never directives if (comment.type === "Shebang") { return false; } const { directivePart } = commentParser.extractDirectiveComment(comment.value); const directiveMatch = directivesPattern.exec(directivePart); if (!directiveMatch) { return false; } // only certain comment types are supported as line comments return comment.type !== "Line" || !!/^eslint-disable-(next-)?line$/u.test(directiveMatch[1]); }); this[caches].set("configNodes", configNodes); return configNodes; } /** * Applies language options sent in from the core. * @param {Object} languageOptions The language options for this run. * @returns {void} */ applyLanguageOptions(languageOptions) { /* * Add configured globals and language globals * * Using Object.assign instead of object spread for performance reasons * https://github.com/eslint/eslint/issues/16302 */ const configGlobals = Object.assign( Object.create(null), // https://github.com/eslint/eslint/issues/18363 getGlobalsForEcmaVersion(languageOptions.ecmaVersion), languageOptions.sourceType === "commonjs" ? globals.commonjs : void 0, languageOptions.globals ); const varsCache = this[caches].get("vars"); varsCache.set("configGlobals", configGlobals); } /** * Applies configuration found inside of the source code. This method is only * called when ESLint is running with inline configuration allowed. * @returns {{problems:Array,configs:{config:FlatConfigArray,node:ASTNode}}} Information * that ESLint needs to further process the inline configuration. */ applyInlineConfig() { const problems = []; const configs = []; const exportedVariables = {}; const inlineGlobals = Object.create(null); this.getInlineConfigNodes().forEach(comment => { const { directiveText, directiveValue } = commentParser.parseDirective(comment); switch (directiveText) { case "exported": Object.assign(exportedVariables, commentParser.parseStringConfig(directiveValue, comment)); break; case "globals": case "global": for (const [id, { value }] of Object.entries(commentParser.parseStringConfig(directiveValue, comment))) { let normalizedValue; try { normalizedValue = normalizeConfigGlobal(value); } catch (err) { problems.push({ ruleId: null, loc: comment.loc, message: err.message }); continue; } if (inlineGlobals[id]) { inlineGlobals[id].comments.push(comment); inlineGlobals[id].value = normalizedValue; } else { inlineGlobals[id] = { comments: [comment], value: normalizedValue }; } } break; case "eslint": { const parseResult = commentParser.parseJsonConfig(directiveValue, comment.loc); if (parseResult.success) { configs.push({ config: { rules: parseResult.config }, node: comment }); } else { problems.push(parseResult.error); } break; } // no default } }); // save all the new variables for later const varsCache = this[caches].get("vars"); varsCache.set("inlineGlobals", inlineGlobals); varsCache.set("exportedVariables", exportedVariables); return { configs, problems }; } /** * Called by ESLint core to indicate that it has finished providing * information. We now add in all the missing variables and ensure that * state-changing methods cannot be called by rules. * @returns {void} */ finalize() { // Step 1: ensure that all of the necessary variables are up to date const varsCache = this[caches].get("vars"); const globalScope = this.scopeManager.scopes[0]; const configGlobals = varsCache.get("configGlobals"); const inlineGlobals = varsCache.get("inlineGlobals"); const exportedVariables = varsCache.get("exportedVariables"); addDeclaredGlobals(globalScope, configGlobals, inlineGlobals); if (exportedVariables) { markExportedVariables(globalScope, exportedVariables); } } } module.exports = SourceCode;