github-pages-deploy-action/node_modules/tslint/lib/rules/strictBooleanExpressionsRule.js

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2019-11-19 20:48:29 +08:00
"use strict";
/**
* @license
* Copyright 2018 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 tsutils_1 = require("tsutils");
var ts = require("typescript");
var Lint = require("../index");
var OPTION_ALLOW_NULL_UNION = "allow-null-union";
var OPTION_ALLOW_UNDEFINED_UNION = "allow-undefined-union";
var OPTION_ALLOW_STRING = "allow-string";
var OPTION_ALLOW_ENUM = "allow-enum";
var OPTION_ALLOW_NUMBER = "allow-number";
var OPTION_ALLOW_MIX = "allow-mix";
var OPTION_ALLOW_BOOLEAN_OR_UNDEFINED = "allow-boolean-or-undefined";
var OPTION_IGNORE_RHS = "ignore-rhs";
// tslint:disable object-literal-sort-keys no-bitwise
var Rule = /** @class */ (function (_super) {
tslib_1.__extends(Rule, _super);
function Rule() {
return _super !== null && _super.apply(this, arguments) || this;
}
Rule.prototype.applyWithProgram = function (sourceFile, program) {
var options = parseOptions(this.ruleArguments, Lint.isStrictNullChecksEnabled(program.getCompilerOptions()));
return this.applyWithFunction(sourceFile, walk, options, program.getTypeChecker());
};
Rule.metadata = {
ruleName: "strict-boolean-expressions",
description: Lint.Utils.dedent(templateObject_1 || (templateObject_1 = tslib_1.__makeTemplateObject(["\n Restricts the types allowed in boolean expressions. By default only booleans are allowed.\n\n The following nodes are checked:\n\n * Arguments to the `!`, `&&`, and `||` operators\n * The condition in a conditional expression (`cond ? x : y`)\n * Conditions for `if`, `for`, `while`, and `do-while` statements."], ["\n Restricts the types allowed in boolean expressions. By default only booleans are allowed.\n\n The following nodes are checked:\n\n * Arguments to the \\`!\\`, \\`&&\\`, and \\`||\\` operators\n * The condition in a conditional expression (\\`cond ? x : y\\`)\n * Conditions for \\`if\\`, \\`for\\`, \\`while\\`, and \\`do-while\\` statements."]))),
optionsDescription: Lint.Utils.dedent(templateObject_2 || (templateObject_2 = tslib_1.__makeTemplateObject(["\n These options may be provided:\n\n * `", "` allows union types containing `null`.\n - It does *not* allow `null` itself.\n - Without the '--strictNullChecks' compiler option, this will allow anything other than a string, number, or enum.\n * `", "` allows union types containing `undefined`.\n - It does *not* allow `undefined` itself.\n - Without the '--strictNullChecks' compiler option, this will allow anything other than a string, number, or enum.\n * `", "` allows strings.\n - It does *not* allow unions containing `string`.\n - It does *not* allow string literal types.\n * `", "` allows enums.\n - It does *not* allow unions containing `enum`.\n * `", "` allows numbers.\n - It does *not* allow unions containing `number`.\n - It does *not* allow enums or number literal types.\n * `", "` allows multiple of the above to appear together.\n - For example, `string | number` or `RegExp | null | undefined` would normally not be allowed.\n - A type like `\"foo\" | \"bar\" | undefined` is always allowed, because it has only one way to be false.\n * `", "` allows `boolean | undefined`.\n - Also allows `true | false | undefined`.\n - Does not allow `false | undefined`.\n - This option is a subset of `", "`, so you don't need to enable both options at the same time.\n * `", "` ignores the right-hand operand of `&&` and `||`.\n "], ["\n These options may be provided:\n\n * \\`", "\\` allows union types containing \\`null\\`.\n - It does *not* allow \\`null\\` itself.\n - Without the '--strictNullChecks' compiler option, this will allow anything other than a string, number, or enum.\n * \\`", "\\` allows union types containing \\`undefined\\`.\n - It does *not* allow \\`undefined\\` itself.\n - Without the '--strictNullChecks' compiler option, this will allow anything other than a string, number, or enum.\n * \\`", "\\` allows strings.\n - It does *not* allow unions containing \\`string\\`.\n - It does *not* allow string literal types.\n * \\`", "\\` allows enums.\n - It does *not* allow unions containing \\`enum\\`.\n * \\`", "\\` allows numbers.\n - It does *not* allow unions containing \\`number\\`.\n - It does *not* allow enums or number literal types.\n * \\`", "\\` allows multiple of the above to appear together.\n - For example, \\`string | number\\` or \\`RegExp | null | undefined\\` would normally not be allowed.\n - A type like \\`\"foo\" | \"bar\" | undefined\\` is always allowed, because it has only one way to be false.\n * \\`", "\\` allows \\`boolean | undefined\\`.\n - Also allows \\`true | false | undefined\\`.\n - Does not allow \\`false | undefined\\`.\n - This option is a subset of \\`", "\\`, so you don't need to enable both options at the same time.\n * \\`", "\\` ignores the right-hand operand of \\`&&\\` and \\`||\\`.\n "])), OPTION_ALLOW_NULL_UNION, OPTION_ALLOW_UNDEFINED_UNION, OPTION_ALLOW_STRING, OPTION_ALLOW_ENUM, OPTION_ALLOW_NUMBER, OPTION_ALLOW_MIX, OPTION_ALLOW_BOOLEAN_OR_UNDEFINED, OPTION_ALLOW_UNDEFINED_UNION, OPTION_IGNORE_RHS),
options: {
type: "array",
items: {
type: "string",
enum: [
OPTION_ALLOW_NULL_UNION,
OPTION_ALLOW_UNDEFINED_UNION,
OPTION_ALLOW_STRING,
OPTION_ALLOW_ENUM,
OPTION_ALLOW_NUMBER,
OPTION_ALLOW_BOOLEAN_OR_UNDEFINED,
OPTION_IGNORE_RHS,
],
},
minLength: 0,
maxLength: 7,
},
optionExamples: [
true,
[
true,
OPTION_ALLOW_NULL_UNION,
OPTION_ALLOW_UNDEFINED_UNION,
OPTION_ALLOW_STRING,
OPTION_ALLOW_ENUM,
OPTION_ALLOW_NUMBER,
],
[true, OPTION_ALLOW_BOOLEAN_OR_UNDEFINED],
],
type: "functionality",
typescriptOnly: true,
requiresTypeInfo: true,
};
return Rule;
}(Lint.Rules.TypedRule));
exports.Rule = Rule;
function parseOptions(ruleArguments, strictNullChecks) {
return {
strictNullChecks: strictNullChecks,
allowNullUnion: has(OPTION_ALLOW_NULL_UNION),
allowUndefinedUnion: has(OPTION_ALLOW_UNDEFINED_UNION),
allowString: has(OPTION_ALLOW_STRING),
allowEnum: has(OPTION_ALLOW_ENUM),
allowNumber: has(OPTION_ALLOW_NUMBER),
allowMix: has(OPTION_ALLOW_MIX),
allowBooleanOrUndefined: has(OPTION_ALLOW_BOOLEAN_OR_UNDEFINED),
ignoreRhs: has(OPTION_IGNORE_RHS),
};
function has(name) {
return ruleArguments.indexOf(name) !== -1;
}
}
function walk(ctx, checker) {
var sourceFile = ctx.sourceFile, options = ctx.options;
ts.forEachChild(sourceFile, function cb(node) {
switch (node.kind) {
case ts.SyntaxKind.BinaryExpression: {
var b = node;
if (binaryBooleanExpressionKind(b) !== undefined) {
var left = b.left, right = b.right;
// If ignore-rhs is off, we don't have to analyze a boolean binary expression
// on the left side because it will be checked well enough on its own. However,
// if ignore-rhs is on, we have to analyze the overall result of the left
// side no matter what, because its right side might not follow the rules.
if (!isBooleanBinaryExpression(left)) {
checkExpression(left, b);
}
// If ignore-rhs is on, we don't have to analyze the right hand side
// We also don't have to analyze the right hand side if it is also a
// boolean binary expression; its own inner check is sufficient.
if (!(options.ignoreRhs || isBooleanBinaryExpression(right))) {
checkExpression(right, b);
}
}
break;
}
case ts.SyntaxKind.PrefixUnaryExpression: {
var _a = node, operator = _a.operator, operand = _a.operand;
if (operator === ts.SyntaxKind.ExclamationToken) {
checkExpression(operand, node);
}
break;
}
case ts.SyntaxKind.IfStatement:
case ts.SyntaxKind.WhileStatement:
case ts.SyntaxKind.DoStatement: {
var c = node;
// If it's a boolean binary expression, we'll check it when recursing.
if (!isBooleanBinaryExpression(c.expression)) {
checkExpression(c.expression, c);
}
break;
}
case ts.SyntaxKind.ConditionalExpression:
checkExpression(node.condition, node);
break;
case ts.SyntaxKind.ForStatement: {
var condition = node.condition;
if (condition !== undefined) {
checkExpression(condition, node);
}
}
}
return ts.forEachChild(node, cb);
});
function checkExpression(node, location) {
var type = checker.getTypeAtLocation(node);
var failure = getTypeFailure(type, options);
if (failure !== undefined) {
if (failure === 0 /* AlwaysTruthy */ &&
!options.strictNullChecks &&
(options.allowNullUnion || options.allowUndefinedUnion)) {
// OK; It might be null/undefined.
return;
}
ctx.addFailureAtNode(node, showFailure(location, failure, isUnionType(type), options));
}
}
}
function getTypeFailure(type, options) {
if (isUnionType(type)) {
return handleUnion(type, options);
}
var kind = getKind(type);
var failure = failureForKind(kind, /*isInUnion*/ false, options);
if (failure !== undefined) {
return failure;
}
switch (triState(kind)) {
case true:
// Allow 'any'. Allow 'true' itself, but not any other always-truthy type.
return tsutils_1.isTypeFlagSet(type, ts.TypeFlags.Any | ts.TypeFlags.BooleanLiteral)
? undefined
: 0 /* AlwaysTruthy */;
case false:
// Allow 'false' itself, but not any other always-falsy type
return tsutils_1.isTypeFlagSet(type, ts.TypeFlags.BooleanLiteral)
? undefined
: 1 /* AlwaysFalsy */;
case undefined:
return undefined;
}
}
function isBooleanUndefined(type) {
var isTruthy = false;
for (var _i = 0, _a = type.types; _i < _a.length; _i++) {
var ty = _a[_i];
if (tsutils_1.isTypeFlagSet(ty, ts.TypeFlags.Boolean)) {
isTruthy = true;
}
else if (tsutils_1.isTypeFlagSet(ty, ts.TypeFlags.BooleanLiteral)) {
isTruthy = isTruthy || ty.intrinsicName === "true";
// tslint:disable-next-line:no-bitwise
}
else if (!tsutils_1.isTypeFlagSet(ty, ts.TypeFlags.Void | ts.TypeFlags.Undefined)) {
return undefined;
}
}
return isTruthy;
}
function handleUnion(type, options) {
if (options.allowBooleanOrUndefined) {
switch (isBooleanUndefined(type)) {
case true:
return undefined;
case false:
return 1 /* AlwaysFalsy */;
}
}
// Tracks whether it's possibly truthy.
var anyTruthy = false;
// Counts falsy kinds to see if there's a mix. Also tracks whether it's possibly falsy.
var seenFalsy = 0;
for (var _i = 0, _a = type.types; _i < _a.length; _i++) {
var ty = _a[_i];
var kind = getKind(ty);
var failure = failureForKind(kind, /*isInUnion*/ true, options);
if (failure !== undefined) {
return failure;
}
switch (triState(kind)) {
case true:
anyTruthy = true;
break;
case false:
seenFalsy++;
break;
default:
anyTruthy = true;
seenFalsy++;
}
}
return seenFalsy === 0
? 0 /* AlwaysTruthy */
: !anyTruthy
? 1 /* AlwaysFalsy */
: !options.allowMix && seenFalsy > 1
? 7 /* Mixes */
: undefined;
}
/** Fails if a kind of falsiness is not allowed. */
function failureForKind(kind, isInUnion, options) {
switch (kind) {
case 0 /* String */:
case 1 /* FalseStringLiteral */:
return options.allowString ? undefined : 2 /* String */;
case 2 /* Number */:
case 3 /* FalseNumberLiteral */:
return options.allowNumber ? undefined : 3 /* Number */;
case 8 /* Enum */:
return options.allowEnum ? undefined : 6 /* Enum */;
case 6 /* Null */:
return isInUnion && !options.allowNullUnion ? 4 /* Null */ : undefined;
case 7 /* Undefined */:
return isInUnion && !options.allowUndefinedUnion ? 5 /* Undefined */ : undefined;
default:
return undefined;
}
}
/** Divides a type into always true, always false, or unknown. */
function triState(kind) {
switch (kind) {
case 0 /* String */:
case 2 /* Number */:
case 4 /* Boolean */:
case 8 /* Enum */:
return undefined;
case 6 /* Null */:
case 7 /* Undefined */:
case 3 /* FalseNumberLiteral */:
case 1 /* FalseStringLiteral */:
case 5 /* FalseBooleanLiteral */:
return false;
case 9 /* AlwaysTruthy */:
return true;
}
}
function getKind(type) {
return is(ts.TypeFlags.String)
? 0 /* String */
: is(ts.TypeFlags.Number)
? 2 /* Number */
: is(ts.TypeFlags.Boolean)
? 4 /* Boolean */
: is(ts.TypeFlags.Null)
? 6 /* Null */
: is(ts.TypeFlags.Undefined | ts.TypeFlags.Void)
? 7 /* Undefined */
: is(ts.TypeFlags.EnumLike)
? 8 /* Enum */
: is(ts.TypeFlags.NumberLiteral)
? numberLiteralIsZero(type)
? 3 /* FalseNumberLiteral */
: 9 /* AlwaysTruthy */
: is(ts.TypeFlags.StringLiteral)
? stringLiteralIsEmpty(type)
? 1 /* FalseStringLiteral */
: 9 /* AlwaysTruthy */
: is(ts.TypeFlags.BooleanLiteral)
? type.intrinsicName === "true"
? 9 /* AlwaysTruthy */
: 5 /* FalseBooleanLiteral */
: 9 /* AlwaysTruthy */;
function is(flags) {
return tsutils_1.isTypeFlagSet(type, flags);
}
}
function numberLiteralIsZero(type) {
// for compatibility with typescript@<2.4.0
return type.value !== undefined ? type.value === 0 : type.text === "0";
}
function stringLiteralIsEmpty(type) {
// for compatibility with typescript@<2.4.0
return (type.value !== undefined ? type.value : type.text) === "";
}
/** Matches `&&` and `||` operators. */
function isBooleanBinaryExpression(node) {
return (node.kind === ts.SyntaxKind.BinaryExpression &&
binaryBooleanExpressionKind(node) !== undefined);
}
function binaryBooleanExpressionKind(node) {
switch (node.operatorToken.kind) {
case ts.SyntaxKind.AmpersandAmpersandToken:
return "&&";
case ts.SyntaxKind.BarBarToken:
return "||";
default:
return undefined;
}
}
function stringOr(parts) {
switch (parts.length) {
case 1:
return parts[0];
case 2:
return parts[0] + " or " + parts[1];
default:
var res = "";
for (var i = 0; i < parts.length - 1; i++) {
res += parts[i] + ", ";
}
return res + "or " + parts[parts.length - 1];
}
}
function isUnionType(type) {
return tsutils_1.isTypeFlagSet(type, ts.TypeFlags.Union) && !tsutils_1.isTypeFlagSet(type, ts.TypeFlags.Enum);
}
function showLocation(n) {
switch (n.kind) {
case ts.SyntaxKind.PrefixUnaryExpression:
return "operand for the '!' operator";
case ts.SyntaxKind.ConditionalExpression:
return "condition";
case ts.SyntaxKind.ForStatement:
return "'for' condition";
case ts.SyntaxKind.IfStatement:
return "'if' condition";
case ts.SyntaxKind.WhileStatement:
return "'while' condition";
case ts.SyntaxKind.DoStatement:
return "'do-while' condition";
case ts.SyntaxKind.BinaryExpression:
return "operand for the '" + binaryBooleanExpressionKind(n) + "' operator";
}
}
function showFailure(location, ty, unionType, options) {
var expectedTypes = showExpectedTypes(options);
var expected = expectedTypes.length === 1
? "Only " + expectedTypes[0] + "s are allowed"
: "Allowed types are " + stringOr(expectedTypes);
var tyFail = showTypeFailure(ty, unionType, options.strictNullChecks);
return "This type is not allowed in the " + showLocation(location) + " because it " + tyFail + ". " + expected + ".";
}
function showExpectedTypes(options) {
var parts = ["boolean"];
if (options.allowNullUnion) {
parts.push("null-union");
}
if (options.allowUndefinedUnion) {
parts.push("undefined-union");
}
if (options.allowString) {
parts.push("string");
}
if (options.allowEnum) {
parts.push("enum");
}
if (options.allowNumber) {
parts.push("number");
}
if (options.allowBooleanOrUndefined) {
parts.push("boolean-or-undefined");
}
return parts;
}
function showTypeFailure(ty, unionType, strictNullChecks) {
var is = unionType ? "could be" : "is";
switch (ty) {
case 0 /* AlwaysTruthy */:
return strictNullChecks
? "is always truthy"
: "is always truthy. It may be null/undefined, but neither " +
("'" + OPTION_ALLOW_NULL_UNION + "' nor '" + OPTION_ALLOW_UNDEFINED_UNION + "' is set");
case 1 /* AlwaysFalsy */:
return "is always falsy";
case 2 /* String */:
return is + " a string";
case 3 /* Number */:
return is + " a number";
case 4 /* Null */:
return is + " null";
case 5 /* Undefined */:
return is + " undefined";
case 6 /* Enum */:
return is + " an enum";
case 7 /* Mixes */:
return "unions more than one truthy/falsy type";
}
}
var templateObject_1, templateObject_2;