/** * @fileoverview Enforces consistent naming for boolean props * @author Ev Haus */ 'use strict'; const flatMap = require('array.prototype.flatmap'); const values = require('object.values'); const Components = require('../util/Components'); const propsUtil = require('../util/props'); const docsUrl = require('../util/docsUrl'); const propWrapperUtil = require('../util/propWrapper'); const report = require('../util/report'); // ------------------------------------------------------------------------------ // Rule Definition // ------------------------------------------------------------------------------ const messages = { patternMismatch: 'Prop name `{{propName}}` doesn’t match rule `{{pattern}}`', }; module.exports = { meta: { docs: { category: 'Stylistic Issues', description: 'Enforces consistent naming for boolean props', recommended: false, url: docsUrl('boolean-prop-naming'), }, messages, schema: [{ additionalProperties: false, properties: { propTypeNames: { items: { type: 'string', }, minItems: 1, type: 'array', uniqueItems: true, }, rule: { default: '^(is|has)[A-Z]([A-Za-z0-9]?)+', minLength: 1, type: 'string', }, message: { minLength: 1, type: 'string', }, validateNested: { default: false, type: 'boolean', }, }, type: 'object', }], }, create: Components.detect((context, components, utils) => { const config = context.options[0] || {}; const rule = config.rule ? new RegExp(config.rule) : null; const propTypeNames = config.propTypeNames || ['bool']; // Remembers all Flowtype object definitions const objectTypeAnnotations = new Map(); /** * Returns the prop key to ensure we handle the following cases: * propTypes: { * full: React.PropTypes.bool, * short: PropTypes.bool, * direct: bool, * required: PropTypes.bool.isRequired * } * @param {Object} node The node we're getting the name of * @returns {string | null} */ function getPropKey(node) { // Check for `ExperimentalSpreadProperty` (eslint 3/4) and `SpreadElement` (eslint 5) // so we can skip validation of those fields. // Otherwise it will look for `node.value.property` which doesn't exist and breaks eslint. if (node.type === 'ExperimentalSpreadProperty' || node.type === 'SpreadElement') { return null; } if (node.value && node.value.property) { const name = node.value.property.name; if (name === 'isRequired') { if (node.value.object && node.value.object.property) { return node.value.object.property.name; } return null; } return name; } if (node.value && node.value.type === 'Identifier') { return node.value.name; } return null; } /** * Returns the name of the given node (prop) * @param {Object} node The node we're getting the name of * @returns {string} */ function getPropName(node) { // Due to this bug https://github.com/babel/babel-eslint/issues/307 // we can't get the name of the Flow object key name. So we have // to hack around it for now. if (node.type === 'ObjectTypeProperty') { return context.getSourceCode().getFirstToken(node).value; } return node.key.name; } /** * Checks if prop is declared in flow way * @param {Object} prop Property object, single prop type declaration * @returns {Boolean} */ function flowCheck(prop) { return ( prop.type === 'ObjectTypeProperty' && prop.value.type === 'BooleanTypeAnnotation' && rule.test(getPropName(prop)) === false ); } /** * Checks if prop is declared in regular way * @param {Object} prop Property object, single prop type declaration * @returns {Boolean} */ function regularCheck(prop) { const propKey = getPropKey(prop); return ( propKey && propTypeNames.indexOf(propKey) >= 0 && rule.test(getPropName(prop)) === false ); } function tsCheck(prop) { if (prop.type !== 'TSPropertySignature') return false; const typeAnnotation = (prop.typeAnnotation || {}).typeAnnotation; return ( typeAnnotation && typeAnnotation.type === 'TSBooleanKeyword' && rule.test(getPropName(prop)) === false ); } /** * Checks if prop is nested * @param {Object} prop Property object, single prop type declaration * @returns {Boolean} */ function nestedPropTypes(prop) { return ( prop.type === 'Property' && prop.value.type === 'CallExpression' ); } /** * Runs recursive check on all proptypes * @param {Array} proptypes A list of Property object (for each proptype defined) * @param {Function} addInvalidProp callback to run for each error */ function runCheck(proptypes, addInvalidProp) { (proptypes || []).forEach((prop) => { if (config.validateNested && nestedPropTypes(prop)) { runCheck(prop.value.arguments[0].properties, addInvalidProp); return; } if (flowCheck(prop) || regularCheck(prop) || tsCheck(prop)) { addInvalidProp(prop); } }); } /** * Checks and mark props with invalid naming * @param {Object} node The component node we're testing * @param {Array} proptypes A list of Property object (for each proptype defined) */ function validatePropNaming(node, proptypes) { const component = components.get(node) || node; const invalidProps = component.invalidProps || []; runCheck(proptypes, (prop) => { invalidProps.push(prop); }); components.set(node, { invalidProps, }); } /** * Reports invalid prop naming * @param {Object} component The component to process */ function reportInvalidNaming(component) { component.invalidProps.forEach((propNode) => { const propName = getPropName(propNode); report(context, config.message || messages.patternMismatch, !config.message && 'patternMismatch', { node: propNode, data: { component: propName, propName, pattern: config.rule, }, }); }); } function checkPropWrapperArguments(node, args) { if (!node || !Array.isArray(args)) { return; } args.filter((arg) => arg.type === 'ObjectExpression').forEach((object) => validatePropNaming(node, object.properties)); } function getComponentTypeAnnotation(component) { // If this is a functional component that uses a global type, check it if ( (component.node.type === 'FunctionDeclaration' || component.node.type === 'ArrowFunctionExpression') && component.node.params && component.node.params.length > 0 && component.node.params[0].typeAnnotation ) { return component.node.params[0].typeAnnotation.typeAnnotation; } if ( !component.node.parent || component.node.parent.type !== 'VariableDeclarator' || !component.node.parent.id || component.node.parent.id.type !== 'Identifier' || !component.node.parent.id.typeAnnotation || !component.node.parent.id.typeAnnotation.typeAnnotation ) { return; } const annotationTypeParams = component.node.parent.id.typeAnnotation.typeAnnotation.typeParameters; if ( annotationTypeParams && ( annotationTypeParams.type === 'TSTypeParameterInstantiation' || annotationTypeParams.type === 'TypeParameterInstantiation' ) ) { return annotationTypeParams.params.find( (param) => param.type === 'TSTypeReference' || param.type === 'GenericTypeAnnotation' ); } } function findAllTypeAnnotations(identifier, node) { if (node.type === 'TSTypeLiteral' || node.type === 'ObjectTypeAnnotation' || node.type === 'TSInterfaceBody') { const currentNode = [].concat( objectTypeAnnotations.get(identifier.name) || [], node ); objectTypeAnnotations.set(identifier.name, currentNode); } else if ( node.type === 'TSParenthesizedType' && ( node.typeAnnotation.type === 'TSIntersectionType' || node.typeAnnotation.type === 'TSUnionType' ) ) { node.typeAnnotation.types.forEach((type) => { findAllTypeAnnotations(identifier, type); }); } else if ( node.type === 'TSIntersectionType' || node.type === 'TSUnionType' || node.type === 'IntersectionTypeAnnotation' || node.type === 'UnionTypeAnnotation' ) { node.types.forEach((type) => { findAllTypeAnnotations(identifier, type); }); } } // -------------------------------------------------------------------------- // Public // -------------------------------------------------------------------------- return { 'ClassProperty, PropertyDefinition'(node) { if (!rule || !propsUtil.isPropTypesDeclaration(node)) { return; } if ( node.value && node.value.type === 'CallExpression' && propWrapperUtil.isPropWrapperFunction( context, context.getSourceCode().getText(node.value.callee) ) ) { checkPropWrapperArguments(node, node.value.arguments); } if (node.value && node.value.properties) { validatePropNaming(node, node.value.properties); } if (node.typeAnnotation && node.typeAnnotation.typeAnnotation) { validatePropNaming(node, node.typeAnnotation.typeAnnotation.properties); } }, MemberExpression(node) { if (!rule || !propsUtil.isPropTypesDeclaration(node)) { return; } const component = utils.getRelatedComponent(node); if (!component || !node.parent.right) { return; } const right = node.parent.right; if ( right.type === 'CallExpression' && propWrapperUtil.isPropWrapperFunction( context, context.getSourceCode().getText(right.callee) ) ) { checkPropWrapperArguments(component.node, right.arguments); return; } validatePropNaming(component.node, node.parent.right.properties); }, ObjectExpression(node) { if (!rule) { return; } // Search for the proptypes declaration node.properties.forEach((property) => { if (!propsUtil.isPropTypesDeclaration(property)) { return; } validatePropNaming(node, property.value.properties); }); }, TypeAlias(node) { findAllTypeAnnotations(node.id, node.right); }, TSTypeAliasDeclaration(node) { findAllTypeAnnotations(node.id, node.typeAnnotation); }, TSInterfaceDeclaration(node) { findAllTypeAnnotations(node.id, node.body); }, // eslint-disable-next-line object-shorthand 'Program:exit'() { if (!rule) { return; } values(components.list()).forEach((component) => { const annotation = getComponentTypeAnnotation(component); if (annotation) { let propType; if (annotation.type === 'GenericTypeAnnotation') { propType = objectTypeAnnotations.get(annotation.id.name); } else if (annotation.type === 'ObjectTypeAnnotation' || annotation.type === 'TSTypeLiteral') { propType = annotation; } else if (annotation.type === 'TSTypeReference') { propType = objectTypeAnnotations.get(annotation.typeName.name); } else if (annotation.type === 'TSIntersectionType') { propType = flatMap(annotation.types, (type) => objectTypeAnnotations.get(type.typeName.name)); } if (propType) { [].concat(propType).forEach((prop) => { validatePropNaming( component.node, prop.properties || prop.members || prop.body ); }); } } if (component.invalidProps && component.invalidProps.length > 0) { reportInvalidNaming(component); } }); // Reset cache objectTypeAnnotations.clear(); }, }; }), };