/** * @fileoverview Rule to require or disallow newlines between statements * @author Toru Nagashima */ "use strict"; //------------------------------------------------------------------------------ // Requirements //------------------------------------------------------------------------------ const astUtils = require("./utils/ast-utils"); //------------------------------------------------------------------------------ // Helpers //------------------------------------------------------------------------------ const LT = `[${Array.from(astUtils.LINEBREAKS).join("")}]`; const PADDING_LINE_SEQUENCE = new RegExp( String.raw`^(\s*?${LT})\s*${LT}(\s*;?)$`, "u" ); const CJS_EXPORT = /^(?:module\s*\.\s*)?exports(?:\s*\.|\s*\[|$)/u; const CJS_IMPORT = /^require\(/u; /** * Creates tester which check if a node starts with specific keyword. * @param {string} keyword The keyword to test. * @returns {Object} the created tester. * @private */ function newKeywordTester(keyword) { return { test: (node, sourceCode) => sourceCode.getFirstToken(node).value === keyword }; } /** * Creates tester which check if a node starts with specific keyword and spans a single line. * @param {string} keyword The keyword to test. * @returns {Object} the created tester. * @private */ function newSinglelineKeywordTester(keyword) { return { test: (node, sourceCode) => node.loc.start.line === node.loc.end.line && sourceCode.getFirstToken(node).value === keyword }; } /** * Creates tester which check if a node starts with specific keyword and spans multiple lines. * @param {string} keyword The keyword to test. * @returns {Object} the created tester. * @private */ function newMultilineKeywordTester(keyword) { return { test: (node, sourceCode) => node.loc.start.line !== node.loc.end.line && sourceCode.getFirstToken(node).value === keyword }; } /** * Creates tester which check if a node is specific type. * @param {string} type The node type to test. * @returns {Object} the created tester. * @private */ function newNodeTypeTester(type) { return { test: node => node.type === type }; } /** * Checks the given node is an expression statement of IIFE. * @param {ASTNode} node The node to check. * @returns {boolean} `true` if the node is an expression statement of IIFE. * @private */ function isIIFEStatement(node) { if (node.type === "ExpressionStatement") { let call = astUtils.skipChainExpression(node.expression); if (call.type === "UnaryExpression") { call = astUtils.skipChainExpression(call.argument); } return call.type === "CallExpression" && astUtils.isFunction(call.callee); } return false; } /** * Checks whether the given node is a block-like statement. * This checks the last token of the node is the closing brace of a block. * @param {SourceCode} sourceCode The source code to get tokens. * @param {ASTNode} node The node to check. * @returns {boolean} `true` if the node is a block-like statement. * @private */ function isBlockLikeStatement(sourceCode, node) { // do-while with a block is a block-like statement. if (node.type === "DoWhileStatement" && node.body.type === "BlockStatement") { return true; } /* * IIFE is a block-like statement specially from * JSCS#disallowPaddingNewLinesAfterBlocks. */ if (isIIFEStatement(node)) { return true; } // Checks the last token is a closing brace of blocks. const lastToken = sourceCode.getLastToken(node, astUtils.isNotSemicolonToken); const belongingNode = lastToken && astUtils.isClosingBraceToken(lastToken) ? sourceCode.getNodeByRangeIndex(lastToken.range[0]) : null; return Boolean(belongingNode) && ( belongingNode.type === "BlockStatement" || belongingNode.type === "SwitchStatement" ); } /** * Gets the actual last token. * * If a semicolon is semicolon-less style's semicolon, this ignores it. * For example: * * foo() * ;[1, 2, 3].forEach(bar) * @param {SourceCode} sourceCode The source code to get tokens. * @param {ASTNode} node The node to get. * @returns {Token} The actual last token. * @private */ function getActualLastToken(sourceCode, node) { const semiToken = sourceCode.getLastToken(node); const prevToken = sourceCode.getTokenBefore(semiToken); const nextToken = sourceCode.getTokenAfter(semiToken); const isSemicolonLessStyle = Boolean( prevToken && nextToken && prevToken.range[0] >= node.range[0] && astUtils.isSemicolonToken(semiToken) && semiToken.loc.start.line !== prevToken.loc.end.line && semiToken.loc.end.line === nextToken.loc.start.line ); return isSemicolonLessStyle ? prevToken : semiToken; } /** * This returns the concatenation of the first 2 captured strings. * @param {string} _ Unused. Whole matched string. * @param {string} trailingSpaces The trailing spaces of the first line. * @param {string} indentSpaces The indentation spaces of the last line. * @returns {string} The concatenation of trailingSpaces and indentSpaces. * @private */ function replacerToRemovePaddingLines(_, trailingSpaces, indentSpaces) { return trailingSpaces + indentSpaces; } /** * Check and report statements for `any` configuration. * It does nothing. * @returns {void} * @private */ function verifyForAny() { } /** * Check and report statements for `never` configuration. * This autofix removes blank lines between the given 2 statements. * However, if comments exist between 2 blank lines, it does not remove those * blank lines automatically. * @param {RuleContext} context The rule context to report. * @param {ASTNode} _ Unused. The previous node to check. * @param {ASTNode} nextNode The next node to check. * @param {Array} paddingLines The array of token pairs that blank * lines exist between the pair. * @returns {void} * @private */ function verifyForNever(context, _, nextNode, paddingLines) { if (paddingLines.length === 0) { return; } context.report({ node: nextNode, messageId: "unexpectedBlankLine", fix(fixer) { if (paddingLines.length >= 2) { return null; } const prevToken = paddingLines[0][0]; const nextToken = paddingLines[0][1]; const start = prevToken.range[1]; const end = nextToken.range[0]; const text = context.sourceCode.text .slice(start, end) .replace(PADDING_LINE_SEQUENCE, replacerToRemovePaddingLines); return fixer.replaceTextRange([start, end], text); } }); } /** * Check and report statements for `always` configuration. * This autofix inserts a blank line between the given 2 statements. * If the `prevNode` has trailing comments, it inserts a blank line after the * trailing comments. * @param {RuleContext} context The rule context to report. * @param {ASTNode} prevNode The previous node to check. * @param {ASTNode} nextNode The next node to check. * @param {Array} paddingLines The array of token pairs that blank * lines exist between the pair. * @returns {void} * @private */ function verifyForAlways(context, prevNode, nextNode, paddingLines) { if (paddingLines.length > 0) { return; } context.report({ node: nextNode, messageId: "expectedBlankLine", fix(fixer) { const sourceCode = context.sourceCode; let prevToken = getActualLastToken(sourceCode, prevNode); const nextToken = sourceCode.getFirstTokenBetween( prevToken, nextNode, { includeComments: true, /** * Skip the trailing comments of the previous node. * This inserts a blank line after the last trailing comment. * * For example: * * foo(); // trailing comment. * // comment. * bar(); * * Get fixed to: * * foo(); // trailing comment. * * // comment. * bar(); * @param {Token} token The token to check. * @returns {boolean} `true` if the token is not a trailing comment. * @private */ filter(token) { if (astUtils.isTokenOnSameLine(prevToken, token)) { prevToken = token; return false; } return true; } } ) || nextNode; const insertText = astUtils.isTokenOnSameLine(prevToken, nextToken) ? "\n\n" : "\n"; return fixer.insertTextAfter(prevToken, insertText); } }); } /** * Types of blank lines. * `any`, `never`, and `always` are defined. * Those have `verify` method to check and report statements. * @private */ const PaddingTypes = { any: { verify: verifyForAny }, never: { verify: verifyForNever }, always: { verify: verifyForAlways } }; /** * Types of statements. * Those have `test` method to check it matches to the given statement. * @private */ const StatementTypes = { "*": { test: () => true }, "block-like": { test: (node, sourceCode) => isBlockLikeStatement(sourceCode, node) }, "cjs-export": { test: (node, sourceCode) => node.type === "ExpressionStatement" && node.expression.type === "AssignmentExpression" && CJS_EXPORT.test(sourceCode.getText(node.expression.left)) }, "cjs-import": { test: (node, sourceCode) => node.type === "VariableDeclaration" && node.declarations.length > 0 && Boolean(node.declarations[0].init) && CJS_IMPORT.test(sourceCode.getText(node.declarations[0].init)) }, directive: { test: astUtils.isDirective }, expression: { test: node => node.type === "ExpressionStatement" && !astUtils.isDirective(node) }, iife: { test: isIIFEStatement }, "multiline-block-like": { test: (node, sourceCode) => node.loc.start.line !== node.loc.end.line && isBlockLikeStatement(sourceCode, node) }, "multiline-expression": { test: node => node.loc.start.line !== node.loc.end.line && node.type === "ExpressionStatement" && !astUtils.isDirective(node) }, "multiline-const": newMultilineKeywordTester("const"), "multiline-let": newMultilineKeywordTester("let"), "multiline-var": newMultilineKeywordTester("var"), "singleline-const": newSinglelineKeywordTester("const"), "singleline-let": newSinglelineKeywordTester("let"), "singleline-var": newSinglelineKeywordTester("var"), block: newNodeTypeTester("BlockStatement"), empty: newNodeTypeTester("EmptyStatement"), function: newNodeTypeTester("FunctionDeclaration"), break: newKeywordTester("break"), case: newKeywordTester("case"), class: newKeywordTester("class"), const: newKeywordTester("const"), continue: newKeywordTester("continue"), debugger: newKeywordTester("debugger"), default: newKeywordTester("default"), do: newKeywordTester("do"), export: newKeywordTester("export"), for: newKeywordTester("for"), if: newKeywordTester("if"), import: newKeywordTester("import"), let: newKeywordTester("let"), return: newKeywordTester("return"), switch: newKeywordTester("switch"), throw: newKeywordTester("throw"), try: newKeywordTester("try"), var: newKeywordTester("var"), while: newKeywordTester("while"), with: newKeywordTester("with") }; //------------------------------------------------------------------------------ // Rule Definition //------------------------------------------------------------------------------ /** @type {import('../shared/types').Rule} */ module.exports = { meta: { type: "layout", docs: { description: "Require or disallow padding lines between statements", recommended: false, url: "https://eslint.org/docs/latest/rules/padding-line-between-statements" }, fixable: "whitespace", schema: { definitions: { paddingType: { enum: Object.keys(PaddingTypes) }, statementType: { anyOf: [ { enum: Object.keys(StatementTypes) }, { type: "array", items: { enum: Object.keys(StatementTypes) }, minItems: 1, uniqueItems: true } ] } }, type: "array", items: { type: "object", properties: { blankLine: { $ref: "#/definitions/paddingType" }, prev: { $ref: "#/definitions/statementType" }, next: { $ref: "#/definitions/statementType" } }, additionalProperties: false, required: ["blankLine", "prev", "next"] } }, messages: { unexpectedBlankLine: "Unexpected blank line before this statement.", expectedBlankLine: "Expected blank line before this statement." } }, create(context) { const sourceCode = context.sourceCode; const configureList = context.options || []; let scopeInfo = null; /** * Processes to enter to new scope. * This manages the current previous statement. * @returns {void} * @private */ function enterScope() { scopeInfo = { upper: scopeInfo, prevNode: null }; } /** * Processes to exit from the current scope. * @returns {void} * @private */ function exitScope() { scopeInfo = scopeInfo.upper; } /** * Checks whether the given node matches the given type. * @param {ASTNode} node The statement node to check. * @param {string|string[]} type The statement type to check. * @returns {boolean} `true` if the statement node matched the type. * @private */ function match(node, type) { let innerStatementNode = node; while (innerStatementNode.type === "LabeledStatement") { innerStatementNode = innerStatementNode.body; } if (Array.isArray(type)) { return type.some(match.bind(null, innerStatementNode)); } return StatementTypes[type].test(innerStatementNode, sourceCode); } /** * Finds the last matched configure from configureList. * @param {ASTNode} prevNode The previous statement to match. * @param {ASTNode} nextNode The current statement to match. * @returns {Object} The tester of the last matched configure. * @private */ function getPaddingType(prevNode, nextNode) { for (let i = configureList.length - 1; i >= 0; --i) { const configure = configureList[i]; const matched = match(prevNode, configure.prev) && match(nextNode, configure.next); if (matched) { return PaddingTypes[configure.blankLine]; } } return PaddingTypes.any; } /** * Gets padding line sequences between the given 2 statements. * Comments are separators of the padding line sequences. * @param {ASTNode} prevNode The previous statement to count. * @param {ASTNode} nextNode The current statement to count. * @returns {Array} The array of token pairs. * @private */ function getPaddingLineSequences(prevNode, nextNode) { const pairs = []; let prevToken = getActualLastToken(sourceCode, prevNode); if (nextNode.loc.start.line - prevToken.loc.end.line >= 2) { do { const token = sourceCode.getTokenAfter( prevToken, { includeComments: true } ); if (token.loc.start.line - prevToken.loc.end.line >= 2) { pairs.push([prevToken, token]); } prevToken = token; } while (prevToken.range[0] < nextNode.range[0]); } return pairs; } /** * Verify padding lines between the given node and the previous node. * @param {ASTNode} node The node to verify. * @returns {void} * @private */ function verify(node) { const parentType = node.parent.type; const validParent = astUtils.STATEMENT_LIST_PARENTS.has(parentType) || parentType === "SwitchStatement"; if (!validParent) { return; } // Save this node as the current previous statement. const prevNode = scopeInfo.prevNode; // Verify. if (prevNode) { const type = getPaddingType(prevNode, node); const paddingLines = getPaddingLineSequences(prevNode, node); type.verify(context, prevNode, node, paddingLines); } scopeInfo.prevNode = node; } /** * Verify padding lines between the given node and the previous node. * Then process to enter to new scope. * @param {ASTNode} node The node to verify. * @returns {void} * @private */ function verifyThenEnterScope(node) { verify(node); enterScope(); } return { Program: enterScope, BlockStatement: enterScope, SwitchStatement: enterScope, StaticBlock: enterScope, "Program:exit": exitScope, "BlockStatement:exit": exitScope, "SwitchStatement:exit": exitScope, "StaticBlock:exit": exitScope, ":statement": verify, SwitchCase: verifyThenEnterScope, "SwitchCase:exit": exitScope }; } };