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/** * @fileoverview Rule to check for max length on a line. * @author Matt DuVall <http://www.mattduvall.com>
*/
"use strict";
//------------------------------------------------------------------------------
// Constants
//------------------------------------------------------------------------------
const OPTIONS_SCHEMA = { type: "object", properties: { code: { type: "integer", minimum: 0 }, comments: { type: "integer", minimum: 0 }, tabWidth: { type: "integer", minimum: 0 }, ignorePattern: { type: "string" }, ignoreComments: { type: "boolean" }, ignoreStrings: { type: "boolean" }, ignoreUrls: { type: "boolean" }, ignoreTemplateLiterals: { type: "boolean" }, ignoreRegExpLiterals: { type: "boolean" }, ignoreTrailingComments: { type: "boolean" } }, additionalProperties: false};
const OPTIONS_OR_INTEGER_SCHEMA = { anyOf: [ OPTIONS_SCHEMA, { type: "integer", minimum: 0 } ]};
//------------------------------------------------------------------------------
// Rule Definition
//------------------------------------------------------------------------------
module.exports = { meta: { type: "layout",
docs: { description: "enforce a maximum line length", category: "Stylistic Issues", recommended: false, url: "https://eslint.org/docs/rules/max-len" },
schema: [ OPTIONS_OR_INTEGER_SCHEMA, OPTIONS_OR_INTEGER_SCHEMA, OPTIONS_SCHEMA ], messages: { max: "This line has a length of {{lineLength}}. Maximum allowed is {{maxLength}}.", maxComment: "This line has a comment length of {{lineLength}}. Maximum allowed is {{maxCommentLength}}." } },
create(context) {
/* * Inspired by http://tools.ietf.org/html/rfc3986#appendix-B, however:
* - They're matching an entire string that we know is a URI * - We're matching part of a string where we think there *might* be a URL * - We're only concerned about URLs, as picking out any URI would cause * too many false positives * - We don't care about matching the entire URL, any small segment is fine */ const URL_REGEXP = /[^:/?#]:\/\/[^?#]/u;
const sourceCode = context.getSourceCode();
/** * Computes the length of a line that may contain tabs. The width of each * tab will be the number of spaces to the next tab stop. * @param {string} line The line. * @param {int} tabWidth The width of each tab stop in spaces. * @returns {int} The computed line length. * @private */ function computeLineLength(line, tabWidth) { let extraCharacterCount = 0;
line.replace(/\t/gu, (match, offset) => { const totalOffset = offset + extraCharacterCount, previousTabStopOffset = tabWidth ? totalOffset % tabWidth : 0, spaceCount = tabWidth - previousTabStopOffset;
extraCharacterCount += spaceCount - 1; // -1 for the replaced tab
}); return Array.from(line).length + extraCharacterCount; }
// The options object must be the last option specified…
const options = Object.assign({}, context.options[context.options.length - 1]);
// …but max code length…
if (typeof context.options[0] === "number") { options.code = context.options[0]; }
// …and tabWidth can be optionally specified directly as integers.
if (typeof context.options[1] === "number") { options.tabWidth = context.options[1]; }
const maxLength = typeof options.code === "number" ? options.code : 80, tabWidth = typeof options.tabWidth === "number" ? options.tabWidth : 4, ignoreComments = !!options.ignoreComments, ignoreStrings = !!options.ignoreStrings, ignoreTemplateLiterals = !!options.ignoreTemplateLiterals, ignoreRegExpLiterals = !!options.ignoreRegExpLiterals, ignoreTrailingComments = !!options.ignoreTrailingComments || !!options.ignoreComments, ignoreUrls = !!options.ignoreUrls, maxCommentLength = options.comments; let ignorePattern = options.ignorePattern || null;
if (ignorePattern) { ignorePattern = new RegExp(ignorePattern, "u"); }
//--------------------------------------------------------------------------
// Helpers
//--------------------------------------------------------------------------
/** * Tells if a given comment is trailing: it starts on the current line and * extends to or past the end of the current line. * @param {string} line The source line we want to check for a trailing comment on * @param {number} lineNumber The one-indexed line number for line * @param {ASTNode} comment The comment to inspect * @returns {boolean} If the comment is trailing on the given line */ function isTrailingComment(line, lineNumber, comment) { return comment && (comment.loc.start.line === lineNumber && lineNumber <= comment.loc.end.line) && (comment.loc.end.line > lineNumber || comment.loc.end.column === line.length); }
/** * Tells if a comment encompasses the entire line. * @param {string} line The source line with a trailing comment * @param {number} lineNumber The one-indexed line number this is on * @param {ASTNode} comment The comment to remove * @returns {boolean} If the comment covers the entire line */ function isFullLineComment(line, lineNumber, comment) { const start = comment.loc.start, end = comment.loc.end, isFirstTokenOnLine = !line.slice(0, comment.loc.start.column).trim();
return comment && (start.line < lineNumber || (start.line === lineNumber && isFirstTokenOnLine)) && (end.line > lineNumber || (end.line === lineNumber && end.column === line.length)); }
/** * Check if a node is a JSXEmptyExpression contained in a single line JSXExpressionContainer. * @param {ASTNode} node A node to check. * @returns {boolean} True if the node is a JSXEmptyExpression contained in a single line JSXExpressionContainer. */ function isJSXEmptyExpressionInSingleLineContainer(node) { if (!node || !node.parent || node.type !== "JSXEmptyExpression" || node.parent.type !== "JSXExpressionContainer") { return false; }
const parent = node.parent;
return parent.loc.start.line === parent.loc.end.line; }
/** * Gets the line after the comment and any remaining trailing whitespace is * stripped. * @param {string} line The source line with a trailing comment * @param {ASTNode} comment The comment to remove * @returns {string} Line without comment and trailing whitespace */ function stripTrailingComment(line, comment) {
// loc.column is zero-indexed
return line.slice(0, comment.loc.start.column).replace(/\s+$/u, ""); }
/** * Ensure that an array exists at [key] on `object`, and add `value` to it. * @param {Object} object the object to mutate * @param {string} key the object's key * @param {*} value the value to add * @returns {void} * @private */ function ensureArrayAndPush(object, key, value) { if (!Array.isArray(object[key])) { object[key] = []; } object[key].push(value); }
/** * Retrieves an array containing all strings (" or ') in the source code. * @returns {ASTNode[]} An array of string nodes. */ function getAllStrings() { return sourceCode.ast.tokens.filter(token => (token.type === "String" || (token.type === "JSXText" && sourceCode.getNodeByRangeIndex(token.range[0] - 1).type === "JSXAttribute"))); }
/** * Retrieves an array containing all template literals in the source code. * @returns {ASTNode[]} An array of template literal nodes. */ function getAllTemplateLiterals() { return sourceCode.ast.tokens.filter(token => token.type === "Template"); }
/** * Retrieves an array containing all RegExp literals in the source code. * @returns {ASTNode[]} An array of RegExp literal nodes. */ function getAllRegExpLiterals() { return sourceCode.ast.tokens.filter(token => token.type === "RegularExpression"); }
/** * A reducer to group an AST node by line number, both start and end. * @param {Object} acc the accumulator * @param {ASTNode} node the AST node in question * @returns {Object} the modified accumulator * @private */ function groupByLineNumber(acc, node) { for (let i = node.loc.start.line; i <= node.loc.end.line; ++i) { ensureArrayAndPush(acc, i, node); } return acc; }
/** * Returns an array of all comments in the source code. * If the element in the array is a JSXEmptyExpression contained with a single line JSXExpressionContainer, * the element is changed with JSXExpressionContainer node. * @returns {ASTNode[]} An array of comment nodes */ function getAllComments() { const comments = [];
sourceCode.getAllComments() .forEach(commentNode => { const containingNode = sourceCode.getNodeByRangeIndex(commentNode.range[0]);
if (isJSXEmptyExpressionInSingleLineContainer(containingNode)) {
// push a unique node only
if (comments[comments.length - 1] !== containingNode.parent) { comments.push(containingNode.parent); } } else { comments.push(commentNode); } });
return comments; }
/** * Check the program for max length * @param {ASTNode} node Node to examine * @returns {void} * @private */ function checkProgramForMaxLength(node) {
// split (honors line-ending)
const lines = sourceCode.lines,
// list of comments to ignore
comments = ignoreComments || maxCommentLength || ignoreTrailingComments ? getAllComments() : [];
// we iterate over comments in parallel with the lines
let commentsIndex = 0;
const strings = getAllStrings(); const stringsByLine = strings.reduce(groupByLineNumber, {});
const templateLiterals = getAllTemplateLiterals(); const templateLiteralsByLine = templateLiterals.reduce(groupByLineNumber, {});
const regExpLiterals = getAllRegExpLiterals(); const regExpLiteralsByLine = regExpLiterals.reduce(groupByLineNumber, {});
lines.forEach((line, i) => {
// i is zero-indexed, line numbers are one-indexed
const lineNumber = i + 1;
/* * if we're checking comment length; we need to know whether this * line is a comment */ let lineIsComment = false; let textToMeasure;
/* * We can short-circuit the comment checks if we're already out of * comments to check. */ if (commentsIndex < comments.length) { let comment = null;
// iterate over comments until we find one past the current line
do { comment = comments[++commentsIndex]; } while (comment && comment.loc.start.line <= lineNumber);
// and step back by one
comment = comments[--commentsIndex];
if (isFullLineComment(line, lineNumber, comment)) { lineIsComment = true; textToMeasure = line; } else if (ignoreTrailingComments && isTrailingComment(line, lineNumber, comment)) { textToMeasure = stripTrailingComment(line, comment);
// ignore multiple trailing comments in the same line
let lastIndex = commentsIndex;
while (isTrailingComment(textToMeasure, lineNumber, comments[--lastIndex])) { textToMeasure = stripTrailingComment(textToMeasure, comments[lastIndex]); } } else { textToMeasure = line; } } else { textToMeasure = line; } if (ignorePattern && ignorePattern.test(textToMeasure) || ignoreUrls && URL_REGEXP.test(textToMeasure) || ignoreStrings && stringsByLine[lineNumber] || ignoreTemplateLiterals && templateLiteralsByLine[lineNumber] || ignoreRegExpLiterals && regExpLiteralsByLine[lineNumber] ) {
// ignore this line
return; }
const lineLength = computeLineLength(textToMeasure, tabWidth); const commentLengthApplies = lineIsComment && maxCommentLength;
if (lineIsComment && ignoreComments) { return; }
const loc = { start: { line: lineNumber, column: 0 }, end: { line: lineNumber, column: textToMeasure.length } };
if (commentLengthApplies) { if (lineLength > maxCommentLength) { context.report({ node, loc, messageId: "maxComment", data: { lineLength, maxCommentLength } }); } } else if (lineLength > maxLength) { context.report({ node, loc, messageId: "max", data: { lineLength, maxLength } }); } }); }
//--------------------------------------------------------------------------
// Public API
//--------------------------------------------------------------------------
return { Program: checkProgramForMaxLength };
}};
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