/** * @fileoverview A rule to suggest using template literals instead of string concatenation. * @author Toru Nagashima */ "use strict"; //------------------------------------------------------------------------------ // Requirements //------------------------------------------------------------------------------ const astUtils = require("../util/ast-utils"); //------------------------------------------------------------------------------ // Helpers //------------------------------------------------------------------------------ /** * Checks whether or not a given node is a concatenation. * @param {ASTNode} node - A node to check. * @returns {boolean} `true` if the node is a concatenation. */ function isConcatenation(node) { return node.type === "BinaryExpression" && node.operator === "+"; } /** * Gets the top binary expression node for concatenation in parents of a given node. * @param {ASTNode} node - A node to get. * @returns {ASTNode} the top binary expression node in parents of a given node. */ function getTopConcatBinaryExpression(node) { let currentNode = node; while (isConcatenation(currentNode.parent)) { currentNode = currentNode.parent; } return currentNode; } /** * Determines whether a given node is a octal escape sequence * @param {ASTNode} node A node to check * @returns {boolean} `true` if the node is an octal escape sequence */ function isOctalEscapeSequence(node) { // No need to check TemplateLiterals – would throw error with octal escape const isStringLiteral = node.type === "Literal" && typeof node.value === "string"; if (!isStringLiteral) { return false; } const match = node.raw.match(/^([^\\]|\\[^0-7])*\\([0-7]{1,3})/); if (match) { // \0 is actually not considered an octal if (match[2] !== "0" || typeof match[3] !== "undefined") { return true; } } return false; } /** * Checks whether or not a node contains a octal escape sequence * @param {ASTNode} node A node to check * @returns {boolean} `true` if the node contains an octal escape sequence */ function hasOctalEscapeSequence(node) { if (isConcatenation(node)) { return hasOctalEscapeSequence(node.left) || hasOctalEscapeSequence(node.right); } return isOctalEscapeSequence(node); } /** * Checks whether or not a given binary expression has string literals. * @param {ASTNode} node - A node to check. * @returns {boolean} `true` if the node has string literals. */ function hasStringLiteral(node) { if (isConcatenation(node)) { // `left` is deeper than `right` normally. return hasStringLiteral(node.right) || hasStringLiteral(node.left); } return astUtils.isStringLiteral(node); } /** * Checks whether or not a given binary expression has non string literals. * @param {ASTNode} node - A node to check. * @returns {boolean} `true` if the node has non string literals. */ function hasNonStringLiteral(node) { if (isConcatenation(node)) { // `left` is deeper than `right` normally. return hasNonStringLiteral(node.right) || hasNonStringLiteral(node.left); } return !astUtils.isStringLiteral(node); } /** * Determines whether a given node will start with a template curly expression (`${}`) when being converted to a template literal. * @param {ASTNode} node The node that will be fixed to a template literal * @returns {boolean} `true` if the node will start with a template curly. */ function startsWithTemplateCurly(node) { if (node.type === "BinaryExpression") { return startsWithTemplateCurly(node.left); } if (node.type === "TemplateLiteral") { return node.expressions.length && node.quasis.length && node.quasis[0].range[0] === node.quasis[0].range[1]; } return node.type !== "Literal" || typeof node.value !== "string"; } /** * Determines whether a given node end with a template curly expression (`${}`) when being converted to a template literal. * @param {ASTNode} node The node that will be fixed to a template literal * @returns {boolean} `true` if the node will end with a template curly. */ function endsWithTemplateCurly(node) { if (node.type === "BinaryExpression") { return startsWithTemplateCurly(node.right); } if (node.type === "TemplateLiteral") { return node.expressions.length && node.quasis.length && node.quasis[node.quasis.length - 1].range[0] === node.quasis[node.quasis.length - 1].range[1]; } return node.type !== "Literal" || typeof node.value !== "string"; } //------------------------------------------------------------------------------ // Rule Definition //------------------------------------------------------------------------------ module.exports = { meta: { docs: { description: "require template literals instead of string concatenation", category: "ECMAScript 6", recommended: false, url: "https://eslint.org/docs/rules/prefer-template" }, schema: [], fixable: "code" }, create(context) { const sourceCode = context.getSourceCode(); let done = Object.create(null); /** * Gets the non-token text between two nodes, ignoring any other tokens that appear between the two tokens. * @param {ASTNode} node1 The first node * @param {ASTNode} node2 The second node * @returns {string} The text between the nodes, excluding other tokens */ function getTextBetween(node1, node2) { const allTokens = [node1].concat(sourceCode.getTokensBetween(node1, node2)).concat(node2); const sourceText = sourceCode.getText(); return allTokens.slice(0, -1).reduce((accumulator, token, index) => accumulator + sourceText.slice(token.range[1], allTokens[index + 1].range[0]), ""); } /** * Returns a template literal form of the given node. * @param {ASTNode} currentNode A node that should be converted to a template literal * @param {string} textBeforeNode Text that should appear before the node * @param {string} textAfterNode Text that should appear after the node * @returns {string} A string form of this node, represented as a template literal */ function getTemplateLiteral(currentNode, textBeforeNode, textAfterNode) { if (currentNode.type === "Literal" && typeof currentNode.value === "string") { /* * If the current node is a string literal, escape any instances of ${ or ` to prevent them from being interpreted * as a template placeholder. However, if the code already contains a backslash before the ${ or ` * for some reason, don't add another backslash, because that would change the meaning of the code (it would cause * an actual backslash character to appear before the dollar sign). */ return `\`${currentNode.raw.slice(1, -1).replace(/\\*(\${|`)/g, matched => { if (matched.lastIndexOf("\\") % 2) { return `\\${matched}`; } return matched; // Unescape any quotes that appear in the original Literal that no longer need to be escaped. }).replace(new RegExp(`\\\\${currentNode.raw[0]}`, "g"), currentNode.raw[0])}\``; } if (currentNode.type === "TemplateLiteral") { return sourceCode.getText(currentNode); } if (isConcatenation(currentNode) && hasStringLiteral(currentNode) && hasNonStringLiteral(currentNode)) { const plusSign = sourceCode.getFirstTokenBetween(currentNode.left, currentNode.right, token => token.value === "+"); const textBeforePlus = getTextBetween(currentNode.left, plusSign); const textAfterPlus = getTextBetween(plusSign, currentNode.right); const leftEndsWithCurly = endsWithTemplateCurly(currentNode.left); const rightStartsWithCurly = startsWithTemplateCurly(currentNode.right); if (leftEndsWithCurly) { // If the left side of the expression ends with a template curly, add the extra text to the end of the curly bracket. // `foo${bar}` /* comment */ + 'baz' --> `foo${bar /* comment */ }${baz}` return getTemplateLiteral(currentNode.left, textBeforeNode, textBeforePlus + textAfterPlus).slice(0, -1) + getTemplateLiteral(currentNode.right, null, textAfterNode).slice(1); } if (rightStartsWithCurly) { // Otherwise, if the right side of the expression starts with a template curly, add the text there. // 'foo' /* comment */ + `${bar}baz` --> `foo${ /* comment */ bar}baz` return getTemplateLiteral(currentNode.left, textBeforeNode, null).slice(0, -1) + getTemplateLiteral(currentNode.right, textBeforePlus + textAfterPlus, textAfterNode).slice(1); } /* * Otherwise, these nodes should not be combined into a template curly, since there is nowhere to put * the text between them. */ return `${getTemplateLiteral(currentNode.left, textBeforeNode, null)}${textBeforePlus}+${textAfterPlus}${getTemplateLiteral(currentNode.right, textAfterNode, null)}`; } return `\`\${${textBeforeNode || ""}${sourceCode.getText(currentNode)}${textAfterNode || ""}}\``; } /** * Returns a fixer object that converts a non-string binary expression to a template literal * @param {SourceCodeFixer} fixer The fixer object * @param {ASTNode} node A node that should be converted to a template literal * @returns {Object} A fix for this binary expression */ function fixNonStringBinaryExpression(fixer, node) { const topBinaryExpr = getTopConcatBinaryExpression(node.parent); if (hasOctalEscapeSequence(topBinaryExpr)) { return null; } return fixer.replaceText(topBinaryExpr, getTemplateLiteral(topBinaryExpr, null, null)); } /** * Reports if a given node is string concatenation with non string literals. * * @param {ASTNode} node - A node to check. * @returns {void} */ function checkForStringConcat(node) { if (!astUtils.isStringLiteral(node) || !isConcatenation(node.parent)) { return; } const topBinaryExpr = getTopConcatBinaryExpression(node.parent); // Checks whether or not this node had been checked already. if (done[topBinaryExpr.range[0]]) { return; } done[topBinaryExpr.range[0]] = true; if (hasNonStringLiteral(topBinaryExpr)) { context.report({ node: topBinaryExpr, message: "Unexpected string concatenation.", fix: fixer => fixNonStringBinaryExpression(fixer, node) }); } } return { Program() { done = Object.create(null); }, Literal: checkForStringConcat, TemplateLiteral: checkForStringConcat }; } };