/** * @fileoverview Report missing `key` props in iterators/collection literals. * @author Ben Mosher */ 'use strict'; const hasProp = require('jsx-ast-utils/hasProp'); const propName = require('jsx-ast-utils/propName'); const values = require('object.values'); const docsUrl = require('../util/docsUrl'); const pragmaUtil = require('../util/pragma'); const report = require('../util/report'); const astUtil = require('../util/ast'); // ------------------------------------------------------------------------------ // Rule Definition // ------------------------------------------------------------------------------ const defaultOptions = { checkFragmentShorthand: false, checkKeyMustBeforeSpread: false, warnOnDuplicates: false, }; const messages = { missingIterKey: 'Missing "key" prop for element in iterator', missingIterKeyUsePrag: 'Missing "key" prop for element in iterator. Shorthand fragment syntax does not support providing keys. Use {{reactPrag}}.{{fragPrag}} instead', missingArrayKey: 'Missing "key" prop for element in array', missingArrayKeyUsePrag: 'Missing "key" prop for element in array. Shorthand fragment syntax does not support providing keys. Use {{reactPrag}}.{{fragPrag}} instead', keyBeforeSpread: '`key` prop must be placed before any `{...spread}, to avoid conflicting with React’s new JSX transform: https://reactjs.org/blog/2020/09/22/introducing-the-new-jsx-transform.html`', nonUniqueKeys: '`key` prop must be unique', }; module.exports = { meta: { docs: { description: 'Disallow missing `key` props in iterators/collection literals', category: 'Possible Errors', recommended: true, url: docsUrl('jsx-key'), }, messages, schema: [{ type: 'object', properties: { checkFragmentShorthand: { type: 'boolean', default: defaultOptions.checkFragmentShorthand, }, checkKeyMustBeforeSpread: { type: 'boolean', default: defaultOptions.checkKeyMustBeforeSpread, }, warnOnDuplicates: { type: 'boolean', default: defaultOptions.warnOnDuplicates, }, }, additionalProperties: false, }], }, create(context) { const options = Object.assign({}, defaultOptions, context.options[0]); const checkFragmentShorthand = options.checkFragmentShorthand; const checkKeyMustBeforeSpread = options.checkKeyMustBeforeSpread; const warnOnDuplicates = options.warnOnDuplicates; const reactPragma = pragmaUtil.getFromContext(context); const fragmentPragma = pragmaUtil.getFragmentFromContext(context); function checkIteratorElement(node) { if (node.type === 'JSXElement' && !hasProp(node.openingElement.attributes, 'key')) { report(context, messages.missingIterKey, 'missingIterKey', { node, }); } else if (checkFragmentShorthand && node.type === 'JSXFragment') { report(context, messages.missingIterKeyUsePrag, 'missingIterKeyUsePrag', { node, data: { reactPrag: reactPragma, fragPrag: fragmentPragma, }, }); } } function getReturnStatements(node) { const returnStatements = arguments[1] || []; if (node.type === 'IfStatement') { if (node.consequent) { getReturnStatements(node.consequent, returnStatements); } if (node.alternate) { getReturnStatements(node.alternate, returnStatements); } } else if (node.type === 'ReturnStatement') { returnStatements.push(node); } else if (Array.isArray(node.body)) { node.body.forEach((item) => { if (item.type === 'IfStatement') { getReturnStatements(item, returnStatements); } if (item.type === 'ReturnStatement') { returnStatements.push(item); } }); } return returnStatements; } function isKeyAfterSpread(attributes) { let hasFoundSpread = false; return attributes.some((attribute) => { if (attribute.type === 'JSXSpreadAttribute') { hasFoundSpread = true; return false; } if (attribute.type !== 'JSXAttribute') { return false; } return hasFoundSpread && propName(attribute) === 'key'; }); } /** * Checks if the given node is a function expression or arrow function, * and checks if there is a missing key prop in return statement's arguments * @param {ASTNode} node */ function checkFunctionsBlockStatement(node) { if (astUtil.isFunctionLikeExpression(node)) { if (node.body.type === 'BlockStatement') { getReturnStatements(node.body) .filter((returnStatement) => returnStatement && returnStatement.argument) .forEach((returnStatement) => { checkIteratorElement(returnStatement.argument); }); } } } /** * Checks if the given node is an arrow function that has an JSX Element or JSX Fragment in its body, * and the JSX is missing a key prop * @param {ASTNode} node */ function checkArrowFunctionWithJSX(node) { const isArrFn = node && node.type === 'ArrowFunctionExpression'; const shouldCheckNode = (n) => n && (n.type === 'JSXElement' || n.type === 'JSXFragment'); if (isArrFn && shouldCheckNode(node.body)) { checkIteratorElement(node.body); } if (node.body.type === 'ConditionalExpression') { if (shouldCheckNode(node.body.consequent)) { checkIteratorElement(node.body.consequent); } if (shouldCheckNode(node.body.alternate)) { checkIteratorElement(node.body.alternate); } } else if (node.body.type === 'LogicalExpression' && shouldCheckNode(node.body.right)) { checkIteratorElement(node.body.right); } } const childrenToArraySelector = `:matches( CallExpression [callee.object.object.name=${reactPragma}] [callee.object.property.name=Children] [callee.property.name=toArray], CallExpression [callee.object.name=Children] [callee.property.name=toArray] )`.replace(/\s/g, ''); let isWithinChildrenToArray = false; const seen = new WeakSet(); return { [childrenToArraySelector]() { isWithinChildrenToArray = true; }, [`${childrenToArraySelector}:exit`]() { isWithinChildrenToArray = false; }, 'ArrayExpression, JSXElement > JSXElement'(node) { if (isWithinChildrenToArray) { return; } const jsx = (node.type === 'ArrayExpression' ? node.elements : node.parent.children).filter((x) => x && x.type === 'JSXElement'); if (jsx.length === 0) { return; } const map = {}; jsx.forEach((element) => { const attrs = element.openingElement.attributes; const keys = attrs.filter((x) => x.name && x.name.name === 'key'); if (keys.length === 0) { if (node.type === 'ArrayExpression') { report(context, messages.missingArrayKey, 'missingArrayKey', { node: element, }); } } else { keys.forEach((attr) => { const value = context.getSourceCode().getText(attr.value); if (!map[value]) { map[value] = []; } map[value].push(attr); if (checkKeyMustBeforeSpread && isKeyAfterSpread(attrs)) { report(context, messages.keyBeforeSpread, 'keyBeforeSpread', { node: node.type === 'ArrayExpression' ? node : node.parent, }); } }); } }); if (warnOnDuplicates) { values(map).filter((v) => v.length > 1).forEach((v) => { v.forEach((n) => { if (!seen.has(n)) { seen.add(n); report(context, messages.nonUniqueKeys, 'nonUniqueKeys', { node: n, }); } }); }); } }, JSXFragment(node) { if (!checkFragmentShorthand || isWithinChildrenToArray) { return; } if (node.parent.type === 'ArrayExpression') { report(context, messages.missingArrayKeyUsePrag, 'missingArrayKeyUsePrag', { node, data: { reactPrag: reactPragma, fragPrag: fragmentPragma, }, }); } }, // Array.prototype.map // eslint-disable-next-line no-multi-str 'CallExpression[callee.type="MemberExpression"][callee.property.name="map"],\ CallExpression[callee.type="OptionalMemberExpression"][callee.property.name="map"],\ OptionalCallExpression[callee.type="MemberExpression"][callee.property.name="map"],\ OptionalCallExpression[callee.type="OptionalMemberExpression"][callee.property.name="map"]'(node) { if (isWithinChildrenToArray) { return; } const fn = node.arguments.length > 0 && node.arguments[0]; if (!fn || !astUtil.isFunctionLikeExpression(fn)) { return; } checkArrowFunctionWithJSX(fn); checkFunctionsBlockStatement(fn); }, // Array.from 'CallExpression[callee.type="MemberExpression"][callee.property.name="from"]'(node) { if (isWithinChildrenToArray) { return; } const fn = node.arguments.length > 1 && node.arguments[1]; if (!astUtil.isFunctionLikeExpression(fn)) { return; } checkArrowFunctionWithJSX(fn); checkFunctionsBlockStatement(fn); }, }; }, };