"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); const utils_1 = require("@typescript-eslint/utils"); const util_1 = require("../util"); exports.default = (0, util_1.createRule)({ name: 'adjacent-overload-signatures', meta: { type: 'suggestion', docs: { description: 'Require that function overload signatures be consecutive', recommended: 'stylistic', }, schema: [], messages: { adjacentSignature: 'All {{name}} signatures should be adjacent.', }, }, defaultOptions: [], create(context) { /** * Gets the name and attribute of the member being processed. * @param member the member being processed. * @returns the name and attribute of the member or null if it's a member not relevant to the rule. */ function getMemberMethod(member) { const isStatic = 'static' in member && !!member.static; switch (member.type) { case utils_1.AST_NODE_TYPES.ExportDefaultDeclaration: case utils_1.AST_NODE_TYPES.ExportNamedDeclaration: { // export statements (e.g. export { a };) // have no declarations, so ignore them if (!member.declaration) { return null; } return getMemberMethod(member.declaration); } case utils_1.AST_NODE_TYPES.TSDeclareFunction: case utils_1.AST_NODE_TYPES.FunctionDeclaration: { const name = member.id?.name ?? null; if (name == null) { return null; } return { name, static: isStatic, callSignature: false, type: util_1.MemberNameType.Normal, }; } case utils_1.AST_NODE_TYPES.TSMethodSignature: return { ...(0, util_1.getNameFromMember)(member, context.sourceCode), static: isStatic, callSignature: false, }; case utils_1.AST_NODE_TYPES.TSCallSignatureDeclaration: return { name: 'call', static: isStatic, callSignature: true, type: util_1.MemberNameType.Normal, }; case utils_1.AST_NODE_TYPES.TSConstructSignatureDeclaration: return { name: 'new', static: isStatic, callSignature: false, type: util_1.MemberNameType.Normal, }; case utils_1.AST_NODE_TYPES.MethodDefinition: return { ...(0, util_1.getNameFromMember)(member, context.sourceCode), static: isStatic, callSignature: false, }; } return null; } function isSameMethod(method1, method2) { return (!!method2 && method1.name === method2.name && method1.static === method2.static && method1.callSignature === method2.callSignature && method1.type === method2.type); } function getMembers(node) { switch (node.type) { case utils_1.AST_NODE_TYPES.ClassBody: case utils_1.AST_NODE_TYPES.Program: case utils_1.AST_NODE_TYPES.TSModuleBlock: case utils_1.AST_NODE_TYPES.TSInterfaceBody: case utils_1.AST_NODE_TYPES.BlockStatement: return node.body; case utils_1.AST_NODE_TYPES.TSTypeLiteral: return node.members; } } /** * Check the body for overload methods. * @param node the body to be inspected. */ function checkBodyForOverloadMethods(node) { const members = getMembers(node); let lastMethod = null; const seenMethods = []; members.forEach(member => { const method = getMemberMethod(member); if (method == null) { lastMethod = null; return; } const index = seenMethods.findIndex(seenMethod => isSameMethod(method, seenMethod)); if (index > -1 && !isSameMethod(method, lastMethod)) { context.report({ node: member, messageId: 'adjacentSignature', data: { name: `${method.static ? 'static ' : ''}${method.name}`, }, }); } else if (index === -1) { seenMethods.push(method); } lastMethod = method; }); } return { ClassBody: checkBodyForOverloadMethods, Program: checkBodyForOverloadMethods, TSModuleBlock: checkBodyForOverloadMethods, TSTypeLiteral: checkBodyForOverloadMethods, TSInterfaceBody: checkBodyForOverloadMethods, BlockStatement: checkBodyForOverloadMethods, }; }, }); //# sourceMappingURL=adjacent-overload-signatures.js.map