"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"); // tslint:disable object-literal-sort-keys var utils = require("tsutils"); var ts = require("typescript"); var Lint = require("../index"); var OPTION_BRANCH = "check-branch"; var OPTION_DECL = "check-decl"; var OPTION_OPERATOR = "check-operator"; var OPTION_MODULE = "check-module"; var OPTION_SEPARATOR = "check-separator"; var OPTION_REST_SPREAD = "check-rest-spread"; var OPTION_TYPE = "check-type"; var OPTION_TYPECAST = "check-typecast"; var OPTION_TYPE_OPERATOR = "check-type-operator"; var OPTION_PREBLOCK = "check-preblock"; var Rule = /** @class */ (function (_super) { tslib_1.__extends(Rule, _super); function Rule() { return _super !== null && _super.apply(this, arguments) || this; } Rule.prototype.apply = function (sourceFile) { return this.applyWithFunction(sourceFile, walk, parseOptions(this.ruleArguments)); }; Rule.metadata = { ruleName: "whitespace", description: "Enforces whitespace style conventions.", rationale: "Helps maintain a readable, consistent style in your codebase.", optionsDescription: (_a = ["\n Ten arguments may be optionally provided:\n\n * `\"check-branch\"` checks branching statements (`if`/`else`/`for`/`while`) are followed by whitespace.\n * `\"check-decl\"`checks that variable declarations have whitespace around the equals token.\n * `\"check-operator\"` checks for whitespace around operator tokens.\n * `\"check-module\"` checks for whitespace in import & export statements.\n * `\"check-separator\"` checks for whitespace after separator tokens (`,`/`;`).\n * `\"check-rest-spread\"` checks that there is no whitespace after rest/spread operator (`...`).\n * `\"check-type\"` checks for whitespace before a variable type specification.\n * `\"check-typecast\"` checks for whitespace between a typecast and its target.\n * `\"check-type-operator\"` checks for whitespace between type operators `|` and `&`.\n * `\"check-preblock\"` checks for whitespace before the opening brace of a block"], _a.raw = ["\n Ten arguments may be optionally provided:\n\n * \\`\"check-branch\"\\` checks branching statements (\\`if\\`/\\`else\\`/\\`for\\`/\\`while\\`) are followed by whitespace.\n * \\`\"check-decl\"\\`checks that variable declarations have whitespace around the equals token.\n * \\`\"check-operator\"\\` checks for whitespace around operator tokens.\n * \\`\"check-module\"\\` checks for whitespace in import & export statements.\n * \\`\"check-separator\"\\` checks for whitespace after separator tokens (\\`,\\`/\\`;\\`).\n * \\`\"check-rest-spread\"\\` checks that there is no whitespace after rest/spread operator (\\`...\\`).\n * \\`\"check-type\"\\` checks for whitespace before a variable type specification.\n * \\`\"check-typecast\"\\` checks for whitespace between a typecast and its target.\n * \\`\"check-type-operator\"\\` checks for whitespace between type operators \\`|\\` and \\`&\\`.\n * \\`\"check-preblock\"\\` checks for whitespace before the opening brace of a block"], Lint.Utils.dedent(_a)), options: { type: "array", items: { type: "string", enum: [ "check-branch", "check-decl", "check-operator", "check-module", "check-separator", "check-rest-spread", "check-type", "check-typecast", "check-type-operator", "check-preblock", ], }, minLength: 0, maxLength: 10, }, optionExamples: [[true, "check-branch", "check-operator", "check-typecast"]], type: "style", typescriptOnly: false, hasFix: true, }; Rule.FAILURE_STRING_MISSING = "missing whitespace"; Rule.FAILURE_STRING_INVALID = "invalid whitespace"; return Rule; }(Lint.Rules.AbstractRule)); exports.Rule = Rule; function parseOptions(ruleArguments) { return { branch: has(OPTION_BRANCH), decl: has(OPTION_DECL), operator: has(OPTION_OPERATOR), module: has(OPTION_MODULE), separator: has(OPTION_SEPARATOR), restSpread: has(OPTION_REST_SPREAD), type: has(OPTION_TYPE), typecast: has(OPTION_TYPECAST), typeOperator: has(OPTION_TYPE_OPERATOR), preblock: has(OPTION_PREBLOCK), }; function has(option) { return ruleArguments.indexOf(option) !== -1; } } function walk(ctx) { var sourceFile = ctx.sourceFile, options = ctx.options; ts.forEachChild(sourceFile, function cb(node) { switch (node.kind) { case ts.SyntaxKind.ArrowFunction: checkEqualsGreaterThanTokenInNode(node); break; // check for spaces between the operator symbol (except in the case of comma statements) case ts.SyntaxKind.BinaryExpression: { var _a = node, left = _a.left, operatorToken = _a.operatorToken, right = _a.right; if (options.operator && operatorToken.kind !== ts.SyntaxKind.CommaToken) { checkForTrailingWhitespace(left.getEnd()); checkForTrailingWhitespace(right.getFullStart()); } break; } case ts.SyntaxKind.Block: if (options.preblock) { checkForTrailingWhitespace(node.getFullStart()); } break; // check for spaces between ternary operator symbols case ts.SyntaxKind.ConditionalExpression: if (options.operator) { var _b = node, condition = _b.condition, whenTrue = _b.whenTrue; checkForTrailingWhitespace(condition.getEnd()); checkForTrailingWhitespace(whenTrue.getFullStart()); checkForTrailingWhitespace(whenTrue.getEnd()); } break; case ts.SyntaxKind.ConstructorType: checkEqualsGreaterThanTokenInNode(node); break; case ts.SyntaxKind.ExportAssignment: if (options.module) { var exportKeyword = node.getChildAt(0); var position = exportKeyword.getEnd(); checkForTrailingWhitespace(position); } break; case ts.SyntaxKind.FunctionType: checkEqualsGreaterThanTokenInNode(node); break; case ts.SyntaxKind.ImportDeclaration: { var importClause = node.importClause; if (options.module && importClause !== undefined) { // an import clause can have _both_ named bindings and a name (the latter for the default import) // but the named bindings always come last, so we only need to check that for whitespace var position = void 0; var namedBindings_1 = importClause.namedBindings; if (namedBindings_1 !== undefined) { if (namedBindings_1.kind !== ts.SyntaxKind.NamespaceImport) { namedBindings_1.elements.forEach(function (element, idx, arr) { var internalName = element.name; if (internalName !== undefined) { if (idx === arr.length - 1) { var token = namedBindings_1.getLastToken(); checkForTrailingWhitespace(token.getFullStart()); } if (idx === 0) { var startPos = internalName.getStart() - 1; checkForTrailingWhitespace(startPos, startPos + 1); } } }); } position = namedBindings_1.getEnd(); } else if (importClause.name !== undefined) { position = importClause.name.getEnd(); } if (position !== undefined) { checkForTrailingWhitespace(position); } } break; } case ts.SyntaxKind.ImportEqualsDeclaration: if (options.module) { var position = node.name.getEnd(); checkForTrailingWhitespace(position); } break; case ts.SyntaxKind.TypeAssertionExpression: if (options.typecast) { var position = node.expression.getFullStart(); checkForTrailingWhitespace(position); } break; case ts.SyntaxKind.VariableDeclaration: var _c = node, name = _c.name, type = _c.type, initializer = _c.initializer; if (options.decl && initializer !== undefined) { checkForTrailingWhitespace((type !== undefined ? type : name).getEnd()); } break; case ts.SyntaxKind.BindingElement: case ts.SyntaxKind.Parameter: var dotDotDotToken = node.dotDotDotToken; if (options.restSpread && dotDotDotToken !== undefined) { checkForExcessiveWhitespace(dotDotDotToken.end); } break; case ts.SyntaxKind.SpreadAssignment: case ts.SyntaxKind.SpreadElement: if (options.restSpread) { var position = node.expression.getFullStart(); checkForExcessiveWhitespace(position); } break; case ts.SyntaxKind.UnionType: case ts.SyntaxKind.IntersectionType: if (options.typeOperator) { var types_1 = node.types; types_1.forEach(function (typeNode, index) { if (index > 0) { checkForTrailingWhitespace(typeNode.getFullStart()); } if (index < types_1.length - 1) { checkForTrailingWhitespace(typeNode.getEnd()); } }); } } ts.forEachChild(node, cb); }); var prevTokenShouldBeFollowedByWhitespace = false; utils.forEachTokenWithTrivia(sourceFile, function (_text, tokenKind, range, parent) { if (tokenKind === ts.SyntaxKind.WhitespaceTrivia || tokenKind === ts.SyntaxKind.NewLineTrivia || tokenKind === ts.SyntaxKind.EndOfFileToken) { prevTokenShouldBeFollowedByWhitespace = false; return; } else if (prevTokenShouldBeFollowedByWhitespace) { addMissingWhitespaceErrorAt(range.pos); prevTokenShouldBeFollowedByWhitespace = false; } // check for trailing space after the given tokens switch (tokenKind) { case ts.SyntaxKind.CatchKeyword: case ts.SyntaxKind.ForKeyword: case ts.SyntaxKind.IfKeyword: case ts.SyntaxKind.SwitchKeyword: case ts.SyntaxKind.WhileKeyword: case ts.SyntaxKind.WithKeyword: if (options.branch) { prevTokenShouldBeFollowedByWhitespace = true; } break; case ts.SyntaxKind.CommaToken: if (options.separator) { prevTokenShouldBeFollowedByWhitespace = true; } break; case ts.SyntaxKind.SemicolonToken: if (!options.separator) { break; } var nextPosition = range.pos + 1; var semicolonInTrivialFor = parent.kind === ts.SyntaxKind.ForStatement && nextPosition !== sourceFile.end && (sourceFile.text[nextPosition] === ";" || sourceFile.text[nextPosition] === ")"); if (!semicolonInTrivialFor) { prevTokenShouldBeFollowedByWhitespace = true; } break; case ts.SyntaxKind.EqualsToken: if (options.decl && parent.kind !== ts.SyntaxKind.JsxAttribute) { prevTokenShouldBeFollowedByWhitespace = true; } break; case ts.SyntaxKind.ColonToken: if (options.type) { prevTokenShouldBeFollowedByWhitespace = true; } break; case ts.SyntaxKind.ImportKeyword: if (parent.kind === ts.SyntaxKind.CallExpression && parent.expression.kind === ts.SyntaxKind.ImportKeyword) { return; // Don't check ImportCall } // falls through case ts.SyntaxKind.ExportKeyword: case ts.SyntaxKind.FromKeyword: if (options.typecast) { prevTokenShouldBeFollowedByWhitespace = true; } } }); function checkEqualsGreaterThanTokenInNode(node) { if (!options.operator) { return; } var equalsGreaterThanToken = Lint.childOfKind(node, ts.SyntaxKind.EqualsGreaterThanToken); // condition so we don't crash if the arrow is somehow missing if (equalsGreaterThanToken === undefined) { return; } checkForTrailingWhitespace(equalsGreaterThanToken.getFullStart()); checkForTrailingWhitespace(equalsGreaterThanToken.getEnd()); } function checkForTrailingWhitespace(position, whiteSpacePos) { if (whiteSpacePos === void 0) { whiteSpacePos = position; } if (position !== sourceFile.end && !Lint.isWhiteSpace(sourceFile.text.charCodeAt(position))) { addMissingWhitespaceErrorAt(whiteSpacePos); } } function addMissingWhitespaceErrorAt(position) { // TODO: this rule occasionally adds duplicate failures. if (ctx.failures.some(function (f) { return f.getStartPosition().getPosition() === position; })) { return; } var fix = Lint.Replacement.appendText(position, " "); ctx.addFailureAt(position, 1, Rule.FAILURE_STRING_MISSING, fix); } function checkForExcessiveWhitespace(position) { if (position !== sourceFile.end && Lint.isWhiteSpace(sourceFile.text.charCodeAt(position))) { addInvalidWhitespaceErrorAt(position); } } function addInvalidWhitespaceErrorAt(position) { var fix = Lint.Replacement.deleteText(position, 1); ctx.addFailureAt(position, 1, Rule.FAILURE_STRING_INVALID, fix); } } var _a;