/** * @fileoverview Rule to enforce location of semicolons. * @author Toru Nagashima */ "use strict"; //------------------------------------------------------------------------------ // Requirements //------------------------------------------------------------------------------ const astUtils = require("../ast-utils"); //------------------------------------------------------------------------------ // Rule Definition //------------------------------------------------------------------------------ const SELECTOR = `:matches(${ [ "BreakStatement", "ContinueStatement", "DebuggerStatement", "DoWhileStatement", "ExportAllDeclaration", "ExportDefaultDeclaration", "ExportNamedDeclaration", "ExpressionStatement", "ImportDeclaration", "ReturnStatement", "ThrowStatement", "VariableDeclaration" ].join(",") })`; /** * Get the child node list of a given node. * This returns `Program#body`, `BlockStatement#body`, or `SwitchCase#consequent`. * This is used to check whether a node is the first/last child. * @param {Node} node A node to get child node list. * @returns {Node[]|null} The child node list. */ function getChildren(node) { const t = node.type; if (t === "BlockStatement" || t === "Program") { return node.body; } if (t === "SwitchCase") { return node.consequent; } return null; } /** * Check whether a given node is the last statement in the parent block. * @param {Node} node A node to check. * @returns {boolean} `true` if the node is the last statement in the parent block. */ function isLastChild(node) { const t = node.parent.type; if (t === "IfStatement" && node.parent.consequent === node && node.parent.alternate) { // before `else` keyword. return true; } if (t === "DoWhileStatement") { // before `while` keyword. return true; } const nodeList = getChildren(node.parent); return nodeList !== null && nodeList[nodeList.length - 1] === node; // before `}` or etc. } module.exports = { meta: { docs: { description: "enforce location of semicolons", category: "Stylistic Issues", recommended: false }, schema: [{ enum: ["last", "first"] }], fixable: "whitespace" }, create(context) { const sourceCode = context.getSourceCode(); const option = context.options[0] || "last"; /** * Check the given semicolon token. * @param {Token} semiToken The semicolon token to check. * @param {"first"|"last"} expected The expected location to check. * @returns {void} */ function check(semiToken, expected) { const prevToken = sourceCode.getTokenBefore(semiToken); const nextToken = sourceCode.getTokenAfter(semiToken); const prevIsSameLine = !prevToken || astUtils.isTokenOnSameLine(prevToken, semiToken); const nextIsSameLine = !nextToken || astUtils.isTokenOnSameLine(semiToken, nextToken); if ((expected === "last" && !prevIsSameLine) || (expected === "first" && !nextIsSameLine)) { context.report({ loc: semiToken.loc, message: "Expected this semicolon to be at {{pos}}.", data: { pos: (expected === "last") ? "the end of the previous line" : "the beginning of the next line" }, fix(fixer) { if (prevToken && nextToken && sourceCode.commentsExistBetween(prevToken, nextToken)) { return null; } const start = prevToken ? prevToken.range[1] : semiToken.range[0]; const end = nextToken ? nextToken.range[0] : semiToken.range[1]; const text = (expected === "last") ? ";\n" : "\n;"; return fixer.replaceTextRange([start, end], text); } }); } } return { [SELECTOR](node) { if (option === "first" && isLastChild(node)) { return; } const lastToken = sourceCode.getLastToken(node); if (astUtils.isSemicolonToken(lastToken)) { check(lastToken, option); } }, ForStatement(node) { const firstSemi = node.init && sourceCode.getTokenAfter(node.init, astUtils.isSemicolonToken); const secondSemi = node.test && sourceCode.getTokenAfter(node.test, astUtils.isSemicolonToken); if (firstSemi) { check(firstSemi, "last"); } if (secondSemi) { check(secondSemi, "last"); } } }; } };