wallet-core/node_modules/tslint/lib/rules/adjacentOverloadSignaturesRule.js
2017-08-14 05:02:09 +02:00

142 lines
5.3 KiB
JavaScript

"use strict";
/**
* @license
* Copyright 2013 Palantir Technologies, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
Object.defineProperty(exports, "__esModule", { value: true });
var tslib_1 = require("tslib");
var utils = require("tsutils");
var ts = require("typescript");
var Lint = require("../index");
var Rule = (function (_super) {
tslib_1.__extends(Rule, _super);
function Rule() {
return _super !== null && _super.apply(this, arguments) || this;
}
/* tslint:enable:object-literal-sort-keys */
Rule.FAILURE_STRING = function (name) {
return "All '" + name + "' signatures should be adjacent";
};
Rule.prototype.apply = function (sourceFile) {
return this.applyWithFunction(sourceFile, walk);
};
/* tslint:disable:object-literal-sort-keys */
Rule.metadata = {
ruleName: "adjacent-overload-signatures",
description: "Enforces function overloads to be consecutive.",
optionsDescription: "Not configurable.",
options: null,
optionExamples: [true],
rationale: "Improves readability and organization by grouping naturally related items together.",
type: "typescript",
typescriptOnly: true,
};
return Rule;
}(Lint.Rules.AbstractRule));
exports.Rule = Rule;
function walk(ctx) {
var sourceFile = ctx.sourceFile;
visitStatements(sourceFile.statements);
return ts.forEachChild(sourceFile, function cb(node) {
switch (node.kind) {
case ts.SyntaxKind.ModuleBlock:
visitStatements(node.statements);
break;
case ts.SyntaxKind.InterfaceDeclaration:
case ts.SyntaxKind.ClassDeclaration:
case ts.SyntaxKind.TypeLiteral: {
var members = node.members;
addFailures(getMisplacedOverloads(members, function (member) {
return utils.isSignatureDeclaration(member) ? getOverloadKey(member) : undefined;
}));
}
}
return ts.forEachChild(node, cb);
});
function visitStatements(statements) {
addFailures(getMisplacedOverloads(statements, function (statement) {
return utils.isFunctionDeclaration(statement) && statement.name !== undefined ? statement.name.text : undefined;
}));
}
function addFailures(misplacedOverloads) {
for (var _i = 0, misplacedOverloads_1 = misplacedOverloads; _i < misplacedOverloads_1.length; _i++) {
var node = misplacedOverloads_1[_i];
ctx.addFailureAtNode(node, Rule.FAILURE_STRING(printOverload(node)));
}
}
}
/** 'getOverloadName' may return undefined for nodes that cannot be overloads, e.g. a `const` declaration. */
function getMisplacedOverloads(overloads, getKey) {
var result = [];
var lastKey;
var seen = new Set();
for (var _i = 0, overloads_1 = overloads; _i < overloads_1.length; _i++) {
var node = overloads_1[_i];
if (node.kind === ts.SyntaxKind.SemicolonClassElement) {
continue;
}
var key = getKey(node);
if (key !== undefined) {
if (seen.has(key) && lastKey !== key) {
result.push(node);
}
seen.add(key);
lastKey = key;
}
else {
lastKey = undefined;
}
}
return result;
}
function printOverload(node) {
var info = getOverloadInfo(node);
return typeof info === "string" ? info : info === undefined ? "<unknown>" : info.name;
}
function getOverloadKey(node) {
var info = getOverloadInfo(node);
if (info === undefined) {
return undefined;
}
var _a = typeof info === "string" ? [false, info] : [info.computed, info.name], computed = _a[0], name = _a[1];
var isStatic = Lint.hasModifier(node.modifiers, ts.SyntaxKind.StaticKeyword);
return (computed ? "0" : "1") + (isStatic ? "0" : "1") + name;
}
exports.getOverloadKey = getOverloadKey;
function getOverloadInfo(node) {
switch (node.kind) {
case ts.SyntaxKind.ConstructSignature:
case ts.SyntaxKind.Constructor:
return "constructor";
case ts.SyntaxKind.CallSignature:
return "()";
default: {
var name = node.name;
if (name === undefined) {
return undefined;
}
switch (name.kind) {
case ts.SyntaxKind.Identifier:
return name.text;
case ts.SyntaxKind.ComputedPropertyName:
var expression = name.expression;
return utils.isLiteralExpression(expression) ? expression.text : { name: expression.getText(), computed: true };
default:
return utils.isLiteralExpression(name) ? name.text : undefined;
}
}
}
}