/** * @fileoverview A rule to ensure blank lines within blocks. * @author Mathias Schreck */ "use strict"; //------------------------------------------------------------------------------ // Rule Definition //------------------------------------------------------------------------------ module.exports = { meta: { docs: { description: "require or disallow padding within blocks", category: "Stylistic Issues", recommended: false }, fixable: "whitespace", schema: [ { oneOf: [ { enum: ["always", "never"] }, { type: "object", properties: { blocks: { enum: ["always", "never"] }, switches: { enum: ["always", "never"] }, classes: { enum: ["always", "never"] } }, additionalProperties: false, minProperties: 1 } ] } ] }, create(context) { const options = {}; const config = context.options[0] || "always"; if (typeof config === "string") { const shouldHavePadding = config === "always"; options.blocks = shouldHavePadding; options.switches = shouldHavePadding; options.classes = shouldHavePadding; } else { if (config.hasOwnProperty("blocks")) { options.blocks = config.blocks === "always"; } if (config.hasOwnProperty("switches")) { options.switches = config.switches === "always"; } if (config.hasOwnProperty("classes")) { options.classes = config.classes === "always"; } } const ALWAYS_MESSAGE = "Block must be padded by blank lines.", NEVER_MESSAGE = "Block must not be padded by blank lines."; const sourceCode = context.getSourceCode(); /** * Gets the open brace token from a given node. * @param {ASTNode} node - A BlockStatement or SwitchStatement node from which to get the open brace. * @returns {Token} The token of the open brace. */ function getOpenBrace(node) { if (node.type === "SwitchStatement") { return sourceCode.getTokenBefore(node.cases[0]); } return sourceCode.getFirstToken(node); } /** * Checks if the given parameter is a comment node * @param {ASTNode|Token} node An AST node or token * @returns {boolean} True if node is a comment */ function isComment(node) { return node.type === "Line" || node.type === "Block"; } /** * Checks if there is padding between two tokens * @param {Token} first The first token * @param {Token} second The second token * @returns {boolean} True if there is at least a line between the tokens */ function isPaddingBetweenTokens(first, second) { return second.loc.start.line - first.loc.end.line >= 2; } /** * Checks if the given token has a blank line after it. * @param {Token} token The token to check. * @returns {boolean} Whether or not the token is followed by a blank line. */ function getFirstBlockToken(token) { let prev, first = token; do { prev = first; first = sourceCode.getTokenAfter(first, { includeComments: true }); } while (isComment(first) && first.loc.start.line === prev.loc.end.line); return first; } /** * Checks if the given token is preceeded by a blank line. * @param {Token} token The token to check * @returns {boolean} Whether or not the token is preceeded by a blank line */ function getLastBlockToken(token) { let last = token, next; do { next = last; last = sourceCode.getTokenBefore(last, { includeComments: true }); } while (isComment(last) && last.loc.end.line === next.loc.start.line); return last; } /** * Checks if a node should be padded, according to the rule config. * @param {ASTNode} node The AST node to check. * @returns {boolean} True if the node should be padded, false otherwise. */ function requirePaddingFor(node) { switch (node.type) { case "BlockStatement": return options.blocks; case "SwitchStatement": return options.switches; case "ClassBody": return options.classes; /* istanbul ignore next */ default: throw new Error("unreachable"); } } /** * Checks the given BlockStatement node to be padded if the block is not empty. * @param {ASTNode} node The AST node of a BlockStatement. * @returns {void} undefined. */ function checkPadding(node) { const openBrace = getOpenBrace(node), firstBlockToken = getFirstBlockToken(openBrace), tokenBeforeFirst = sourceCode.getTokenBefore(firstBlockToken, { includeComments: true }), closeBrace = sourceCode.getLastToken(node), lastBlockToken = getLastBlockToken(closeBrace), tokenAfterLast = sourceCode.getTokenAfter(lastBlockToken, { includeComments: true }), blockHasTopPadding = isPaddingBetweenTokens(tokenBeforeFirst, firstBlockToken), blockHasBottomPadding = isPaddingBetweenTokens(lastBlockToken, tokenAfterLast); if (requirePaddingFor(node)) { if (!blockHasTopPadding) { context.report({ node, loc: { line: tokenBeforeFirst.loc.start.line, column: tokenBeforeFirst.loc.start.column }, fix(fixer) { return fixer.insertTextAfter(tokenBeforeFirst, "\n"); }, message: ALWAYS_MESSAGE }); } if (!blockHasBottomPadding) { context.report({ node, loc: { line: tokenAfterLast.loc.end.line, column: tokenAfterLast.loc.end.column - 1 }, fix(fixer) { return fixer.insertTextBefore(tokenAfterLast, "\n"); }, message: ALWAYS_MESSAGE }); } } else { if (blockHasTopPadding) { context.report({ node, loc: { line: tokenBeforeFirst.loc.start.line, column: tokenBeforeFirst.loc.start.column }, fix(fixer) { return fixer.replaceTextRange([tokenBeforeFirst.range[1], firstBlockToken.range[0] - firstBlockToken.loc.start.column], "\n"); }, message: NEVER_MESSAGE }); } if (blockHasBottomPadding) { context.report({ node, loc: { line: tokenAfterLast.loc.end.line, column: tokenAfterLast.loc.end.column - 1 }, message: NEVER_MESSAGE, fix(fixer) { return fixer.replaceTextRange([lastBlockToken.range[1], tokenAfterLast.range[0] - tokenAfterLast.loc.start.column], "\n"); } }); } } } const rule = {}; if (options.hasOwnProperty("switches")) { rule.SwitchStatement = function(node) { if (node.cases.length === 0) { return; } checkPadding(node); }; } if (options.hasOwnProperty("blocks")) { rule.BlockStatement = function(node) { if (node.body.length === 0) { return; } checkPadding(node); }; } if (options.hasOwnProperty("classes")) { rule.ClassBody = function(node) { if (node.body.length === 0) { return; } checkPadding(node); }; } return rule; } };