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<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="utf-8">
<title>Google JavaScript Style Guide</title>
<link rel="stylesheet" href="javaguide.css">
<script src="include/styleguide.js"></script>
<link rel="shortcut icon" href="https://www.google.com/favicon.ico">
<script src="include/jsguide.js"></script>
</head>
<body onload="initStyleGuide();">
<div id="content">
<h1>Google JavaScript Style Guide</h1>
<h2 id="introduction">1 Introduction</h2>
<p>This document serves as the <strong>complete</strong> definition of Google’s coding standards
for source code in the JavaScript programming language. A JavaScript source file
is described as being <em>in Google Style</em> if and only if it adheres to the rules
herein.</p>
<p>Like other programming style guides, the issues covered span not only aesthetic
issues of formatting, but other types of conventions or coding standards as
well. However, this document focuses primarily on the hard-and-fast rules that
we follow universally, and avoids giving advice that isn't clearly enforceable
(whether by human or tool). </p>
<h3 id="terminology-notes">1.1 Terminology notes</h3>
<p>In this document, unless otherwise clarified:</p>
<ol>
<li><p>The term <em>comment</em> always refers to <em>implementation</em> comments. We do not use
the phrase <q>documentation comments</q>, instead using the common term “JSDoc”
for both human-readable text and machine-readable annotations within
<code>/** … */</code>.</p></li>
<li><p>This Style Guide uses <a href="http://tools.ietf.org/html/rfc2119">RFC 2119</a> terminology when using the phrases <em>must</em>,
<em>must not</em>, <em>should</em>, <em>should not</em>, and <em>may</em>. The terms <em>prefer</em> and
<em>avoid</em> correspond to <em>should</em> and <em>should not</em>, respectively. Imperative
and declarative statements are prescriptive and correspond to <em>must</em>.</p></li>
</ol>
<p>Other <q>terminology notes</q> will appear occasionally throughout the document.</p>
<h3 id="guide-notes">1.2 Guide notes</h3>
<p>Example code in this document is <strong>non-normative</strong>. That is, while the examples
are in Google Style, they may not illustrate the <em>only</em> stylish way to represent
the code. Optional formatting choices made in examples must not be enforced as
rules.</p>
<h2 id="source-file-basics">2 Source file basics</h2>
<h3 id="file-name">2.1 File name</h3>
<p>File names must be all lowercase and may include underscores (<code>_</code>) or dashes
(<code>-</code>), but no additional punctuation. Follow the convention that your project
uses. Filenames’ extension must be <code>.js</code>.</p>
<h3 id="file-encoding">2.2 File encoding: UTF-8</h3>
<p>Source files are encoded in <strong>UTF-8</strong>.</p>
<h3 id="special-characters">2.3 Special characters</h3>
<h4 id="whitespace-characters">2.3.1 Whitespace characters</h4>
<p>Aside from the line terminator sequence, the ASCII horizontal space character
(0x20) is the only whitespace character that appears anywhere in a source
file. This implies that</p>
<ol>
<li><p>All other whitespace characters in string literals are escaped, and</p></li>
<li><p>Tab characters are <strong>not</strong> used for indentation.</p></li>
</ol>
<h4 id="special-escape-sequences">2.3.2 Special escape sequences</h4>
<p>For any character that has a special escape sequence (<code>\'</code>, <code>\"</code>, <code>\\</code>, <code>\b</code>,
<code>\f</code>, <code>\n</code>, <code>\r</code>, <code>\t</code>, <code>\v</code>), that sequence is used rather than the
corresponding numeric escape (e.g <code>\x0a</code>, <code>\u000a</code>, or <code>\u{a}</code>). Legacy octal
escapes are never used.</p>
<h4 id="non-ascii-characters">2.3.3 Non-ASCII characters</h4>
<p>For the remaining non-ASCII characters, either the actual Unicode character
(e.g. <code>∞</code>) or the equivalent hex or Unicode escape (e.g. <code>\u221e</code>) is used,
depending only on which makes the code <strong>easier to read and understand</strong>.</p>
<p>Tip: In the Unicode escape case, and occasionally even when actual Unicode
characters are used, an explanatory comment can be very helpful.</p>
<pre><code class="language-js prettyprint">/* Best: perfectly clear even without a comment. */
const units = 'μs';
/* Allowed: but unnecessary as μ is a printable character. */
const units = '\u03bcs'; // 'μs'
/* Good: use escapes for non-printable characters with a comment for clarity. */
return '\ufeff' + content; // Prepend a byte order mark.
</code></pre>
<pre><code class="language-js prettyprint badcode">/* Poor: the reader has no idea what character this is. */
const units = '\u03bcs';
</code></pre>
<p>Tip: Never make your code less readable simply out of fear that some programs
might not handle non-ASCII characters properly. If that happens, those programs
are <strong>broken</strong> and they must be <strong>fixed</strong>.</p>
<h2 id="source-file-structure">3 Source file structure</h2>
<p>All new source files should either be a <code>goog.module</code> file (a file containing a
<code>goog.module</code> call) or an ECMAScript (ES) module (uses <code>import</code> and <code>export</code>
statements). Files consist of the following, <strong>in order</strong>:</p>
<ol>
<li>License or copyright information, if present</li>
<li><code>@fileoverview</code> JSDoc, if present</li>
<li><code>goog.module</code> statement, if a <code>goog.module</code> file</li>
<li>ES <code>import</code> statements, if an ES module</li>
<li><code>goog.require</code> and <code>goog.requireType</code> statements</li>
<li>The file’s implementation</li>
</ol>
<p><strong>Exactly one blank line</strong> separates each section that is present, except the
file's implementation, which may be preceded by 1 or 2 blank lines.</p>
<h3 id="file-copyright">3.1 License or copyright information, if present</h3>
<p>If license or copyright information belongs in a file, it belongs here.</p>
<h3 id="file-fileoverview">3.2 <code>@fileoverview</code> JSDoc, if present</h3>
<p>See <a href="#jsdoc-top-file-level-comments">??</a> for formatting rules.</p>
<h3 id="file-goog-module">3.3 <code>goog.module</code> statement</h3>
<p>All <code>goog.module</code> files must declare exactly one <code>goog.module</code> name on a single
line: lines containing a <code>goog.module</code> declaration must not be wrapped, and are
therefore an exception to the 80-column limit.</p>
<p>The entire argument to goog.module is what defines a namespace. It is the
package name (an identifier that reflects the fragment of the directory
structure where the code lives) plus, optionally, the main class/enum/interface
that it defines concatenated to the end.</p>
<p>Example</p>
<pre><code class="language-js prettyprint">goog.module('search.urlHistory.UrlHistoryService');
</code></pre>
<h4 id="naming-hierarchy">3.3.1 Hierarchy</h4>
<p>Module namespaces may never be named as a <em>direct</em> child of another module's
namespace.</p>
<p>Disallowed:</p>
<pre><code class="language-js prettyprint badcode">goog.module('foo.bar'); // 'foo.bar.qux' would be fine, though
goog.module('foo.bar.baz');
</code></pre>
<p>The directory hierarchy reflects the namespace hierarchy, so that deeper-nested
children are subdirectories of higher-level parent directories. Note that this
implies that owners of “parent” namespace groups are necessarily aware of all
child namespaces, since they exist in the same directory.</p>
<h4 id="file-declare-legacy-namespace">3.3.2 <code>goog.module.declareLegacyNamespace</code></h4>
<p>The single <code>goog.module</code> statement may optionally be followed by a call to
<code>goog.module.declareLegacyNamespace();</code>. Avoid
<code>goog.module.declareLegacyNamespace()</code> when possible.</p>
<p>Example:</p>
<pre><code class="language-js prettyprint">goog.module('my.test.helpers');
goog.module.declareLegacyNamespace();
goog.setTestOnly();
</code></pre>
<p><code>goog.module.declareLegacyNamespace</code> exists to ease the transition from
traditional object hierarchy-based namespaces but comes with some naming
restrictions. As the child module name must be created after the parent
namespace, this name <strong>must not</strong> be a child or parent of any other
<code>goog.module</code> (for example, <code>goog.module('parent');</code> and
<code>goog.module('parent.child');</code> cannot both exist safely, nor can
<code>goog.module('parent');</code> and <code>goog.module('parent.child.grandchild');</code>).</p>
<h3 id="file-goog-module-exports">3.3.3 <code>goog.module</code> Exports</h3>
<p>Classes, enums, functions, constants, and other symbols are exported using the
<code>exports</code> object. Exported symbols may be defined directly on the <code>exports</code>
object, or else declared locally and exported separately. Symbols are only
exported if they are meant to be used outside the module. Non-exported
module-local symbols are not declared <code>@private</code> nor do their names end with an
underscore. There is no prescribed ordering for exported and module-local
symbols.</p>
<p>Examples:</p>
<pre><code class="language-js prettyprint">const /** !Array<number> */ exportedArray = [1, 2, 3];
const /** !Array<number> */ moduleLocalArray = [4, 5, 6];
/** @return {number} */
function moduleLocalFunction() {
return moduleLocalArray.length;
}
/** @return {number} */
function exportedFunction() {
return moduleLocalFunction() * 2;
}
exports = {exportedArray, exportedFunction};
</code></pre>
<pre><code class="language-js prettyprint">/** @const {number} */
exports.CONSTANT_ONE = 1;
/** @const {string} */
exports.CONSTANT_TWO = 'Another constant';
</code></pre>
<p>Do not annotate the <code>exports</code> object as <code>@const</code> as it is already treated as a
constant by the compiler.</p>
<pre><code class="language-js badcode prettyprint">/** @const */
exports = {exportedFunction};
</code></pre>
<p><span id="file-es6-modules"></span></p>
<h3 id="file-es-modules">3.4 ES modules</h3>
<p><span id="es6-module-imports"></span></p>
<h4 id="es-module-imports">3.4.1 Imports</h4>
<p>Import statements must not be line wrapped and are therefore an exception to the
80-column limit.</p>
<p><span id="es6-import-paths"></span></p>
<h5 id="esm-import-paths">3.4.1.1 Import paths</h5>
<p>ES module files must use the <code>import</code> statement to import other ES module
files. Do not <code>goog.require</code> another ES module.</p>
<pre><code class="language-js prettyprint external">import './sideeffects.js';
import * as goog from '../closure/goog/goog.js';
import * as parent from '../parent.js';
import {name} from './sibling.js';
</code></pre>
<p><span id="es6-import-paths-file-extension"></span></p>
<h6 id="esm-import-paths-file-extension">3.4.1.1.1 File extensions in import paths</h6>
<p>The <code>.js</code> file extension is not optional in import paths and must always be
included.</p>
<pre><code class="language-js badcode prettyprint">import '../directory/file';
</code></pre>
<pre><code class="language-js good prettyprint">import '../directory/file.js';
</code></pre>
<h5 id="importing-the-same-file-multiple-times">3.4.1.2 Importing the same file multiple times</h5>
<p>Do not import the same file multiple times. This can make it hard to determine
the aggregate imports of a file.</p>
<pre><code class="language-js badcode prettyprint">// Imports have the same path, but since it doesn't align it can be hard to see.
import {short} from './long/path/to/a/file.js';
import {aLongNameThatBreaksAlignment} from './long/path/to/a/file.js';
</code></pre>
<p><span id="naming-es6-imports"></span></p>
<h5 id="naming-esm-imports">3.4.1.3 Naming imports</h5>
<h6 id="naming-module-imports">3.4.1.3.1 Naming module imports</h6>
<p>Module import names (<code>import * as name</code>) are <code>lowerCamelCase</code> names that are
derived from the imported file name.</p>
<pre><code class="language-js prettyprint">import * as fileOne from '../file-one.js';
import * as fileTwo from '../file_two.js';
import * as fileThree from '../filethree.js';
</code></pre>
<pre><code class="language-js prettyprint">import * as libString from './lib/string.js';
import * as math from './math/math.js';
import * as vectorMath from './vector/math.js';
</code></pre>
<h6 id="naming-default-imports">3.4.1.3.2 Naming default imports</h6>
<p>Default import names are derived from the imported file name and follow the
rules in <a href="#naming-rules-by-identifier-type">??</a>.</p>
<pre><code class="language-js prettyprint">import MyClass from '../my-class.js';
import myFunction from '../my_function.js';
import SOME_CONSTANT from '../someconstant.js';
</code></pre>
<p>Note: In general this should not happen as default exports are banned by this
style guide, see <a href="#named-vs-default-exports">??</a>. Default imports are only used
to import modules that do not conform to this style guide.</p>
<h6 id="naming-named-imports">3.4.1.3.3 Naming named imports</h6>
<p>In general symbols imported via the named import (<code>import {name}</code>) should keep
the same name. Avoid aliasing imports (<code>import {SomeThing as SomeOtherThing}</code>).
Prefer fixing name collisions by using a module import (<code>import *</code>) or renaming
the exports themselves.</p>
<pre><code class="language-js prettyprint">import * as bigAnimals from './biganimals.js';
import * as domesticatedAnimals from './domesticatedanimals.js';
new bigAnimals.Cat();
new domesticatedAnimals.Cat();
</code></pre>
<p>If renaming a named import is needed then use components of the imported
module's file name or path in the resulting alias.</p>
<pre><code class="language-js prettyprint">import {Cat as BigCat} from './biganimals.js';
import {Cat as DomesticatedCat} from './domesticatedanimals.js';
new BigCat();
new DomesticatedCat();
</code></pre>
<p><span id="es6-module-exports"></span></p>
<h4 id="es-module-exports">3.4.2 Exports</h4>
<p>Symbols are only exported if they are meant to be used outside the module.
Non-exported module-local symbols are not declared <code>@private</code> nor do their names
end with an underscore. There is no prescribed ordering for exported and
module-local symbols.</p>
<h5 id="named-vs-default-exports">3.4.2.1 Named vs default exports</h5>
<p>Use named exports in all code. You can apply the <code>export</code> keyword to a
declaration, or use the <code>export {name};</code> syntax.</p>
<p>Do not use default exports. Importing modules must give a name to these values,
which can lead to inconsistencies in naming across modules.</p>
<pre><code class="language-js badcode prettyprint">// Do not use default exports:
export default class Foo { ... } // BAD!
</code></pre>
<pre><code class="language-js good prettyprint">// Use named exports:
export class Foo { ... }
</code></pre>
<pre><code class="language-js good prettyprint">// Alternate style named exports:
class Foo { ... }
export {Foo};
</code></pre>
<h5 id="exporting-static-containers">3.4.2.2 Exporting static container classes and objects</h5>
<p>Do not export container classes or objects with static methods or properties for
the sake of namespacing.</p>
<pre><code class="language-js badcode prettyprint">// container.js
// Bad: Container is an exported class that has only static methods and fields.
export class Container {
/** @return {number} */
static bar() {
return 1;
}
}
/** @const {number} */
Container.FOO = 1;
</code></pre>
<p>Instead, export individual constants and functions:</p>
<pre><code class="language-js good prettyprint">/** @return {number} */
export function bar() {
return 1;
}
export const /** number */ FOO = 1;
</code></pre>
<p><span id="es6-exports-mutability"></span></p>
<h5 id="esm-exports-mutability">3.4.2.3 Mutability of exports</h5>
<p>Exported variables must not be mutated outside of module initialization.</p>
<p>There are alternatives if mutation is needed, including exporting a constant
reference to an object that has mutable fields or exporting accessor functions for
mutable data.</p>
<pre><code class="language-js badcode prettyprint">// Bad: both foo and mutateFoo are exported and mutated.
export let /** number */ foo = 0;
/**
* Mutates foo.
*/
export function mutateFoo() {
++foo;
}
/**
* @param {function(number): number} newMutateFoo
*/
export function setMutateFoo(newMutateFoo) {
// Exported classes and functions can be mutated!
mutateFoo = () => {
foo = newMutateFoo(foo);
};
}
</code></pre>
<pre><code class="language-js good prettyprint">// Good: Rather than export the mutable variables foo and mutateFoo directly,
// instead make them module scoped and export a getter for foo and a wrapper for
// mutateFooFunc.
let /** number */ foo = 0;
let /** function(number): number */ mutateFooFunc = foo => foo + 1;
/** @return {number} */
export function getFoo() {
return foo;
}
export function mutateFoo() {
foo = mutateFooFunc(foo);
}
/** @param {function(number): number} mutateFoo */
export function setMutateFoo(mutateFoo) {
mutateFooFunc = mutateFoo;
}
</code></pre>
<p><span id="es6-module-circular-dependencies"></span></p>
<h5 id="es-module-export-from">3.4.2.4 export from</h5>
<p><code>export from</code> statements must not be line wrapped and are therefore an
exception to the 80-column limit. This applies to both <code>export from</code> flavors.</p>
<pre><code class="language-js">export {specificName} from './other.js';
export * from './another.js';
</code></pre>
<h4 id="es-module-circular-dependencies">3.4.3 Circular Dependencies in ES modules</h4>
<p>Do not create cycles between ES modules, even though the ECMAScript
specification allows this. Note that it is possible to create cycles with both
the <code>import</code> and <code>export</code> statements.</p>
<pre><code class="language-js badcode prettyprint">// a.js
import './b.js';
</code></pre>
<pre><code class="language-js badcode prettyprint">// b.js
import './a.js';
// `export from` can cause circular dependencies too!
export {x} from './c.js';
</code></pre>
<pre><code class="language-js badcode prettyprint">// c.js
import './b.js';
export let x;
</code></pre>
<p><span id="es6-module-closure-interop"></span></p>
<h4 id="es-module-closure-interop">3.4.4 Interoperating with Closure</h4>
<p><span id="es6-module-referencing-goog"></span></p>
<h5 id="es-module-referencing-goog">3.4.4.1 Referencing goog</h5>
<p>To reference the Closure <code>goog</code> namespace, import Closure's <code>goog.js</code>.</p>
<pre><code class="language-js good prettyprint external">import * as goog from '../closure/goog/goog.js';
const name = goog.require('a.name');
export const CONSTANT = name.compute();
</code></pre>
<p><code>goog.js</code> exports only a subset of properties from the global <code>goog</code> that can be
used in ES modules.</p>
<p><span id="goog-require-in-es6-module"></span></p>
<h5 id="goog-require-in-es-module">3.4.4.2 goog.require in ES modules</h5>
<p><code>goog.require</code> in ES modules works as it does in <code>goog.module</code> files. You can
require any Closure namespace symbol (i.e., symbols created by <code>goog.provide</code> or
<code>goog.module</code>) and <code>goog.require</code> will return the value.</p>
<pre><code class="language-js prettyprint external">import * as goog from '../closure/goog/goog.js';
import * as anEsModule from './anEsModule.js';
const GoogPromise = goog.require('goog.Promise');
const myNamespace = goog.require('my.namespace');
</code></pre>
<p><span id="closure-module-id-in-es6-module"></span></p>
<h5 id="closure-module-id-in-es-module">3.4.4.3 Declaring Closure Module IDs in ES modules</h5>
<p><code>goog.declareModuleId</code> can be used within ES modules to declare a
<code>goog.module</code>-like module ID. This means that this module ID can be
<code>goog.require</code>d, <code>goog.module.get</code>d, <code>goog.forwardDeclare</code>'d, etc. as if it were
a <code>goog.module</code> that did not call <code>goog.module.declareLegacyNamespace</code>. It does
not create the module ID as a globally available JavaScript symbol.</p>
<p>A <code>goog.require</code> (or <code>goog.module.get</code>) for a module ID from
<code>goog.declareModuleId</code> will always return the module object (as if it was
<code>import *</code>'d). As a result, the argument to <code>goog.declareModuleId</code> should always
end with a <code>lowerCamelCaseName</code>.</p>
<p>Note: It is an error to call <code>goog.module.declareLegacyNamespace</code> in an ES
module, it can only be called from <code>goog.module</code> files. There is no direct way
to associate a <q>legacy</q> namespace with an ES module.</p>
<p><code>goog.declareModuleId</code> should only be used to upgrade Closure files to ES
modules in place, where named exports are used.</p>
<pre><code class="language-js prettyprint external">import * as goog from '../closure/goog.js';
goog.declareModuleId('my.esm');
export class Class {};
</code></pre>
<h3 id="file-set-test-only">3.5 <code>goog.setTestOnly</code></h3>
<p>In a <code>goog.module</code> file the <code>goog.module</code> statement may optionally be followed
by a call to <code>goog.setTestOnly()</code>.</p>
<p>In an ES module the <code>import</code> statements may optionally be followed by a call to
<code>goog.setTestOnly()</code>.</p>
<h3 id="file-goog-require">3.6 <code>goog.require</code> and <code>goog.requireType</code> statements</h3>
<p>Imports are done with <code>goog.require</code> and <code>goog.requireType</code> statements. The
names imported by a <code>goog.require</code> statement may be used both in code and in
type annotations, while those imported by a <code>goog.requireType</code> may be used
in type annotations only.</p>
<p>The <code>goog.require</code> and <code>goog.requireType</code> statements form a contiguous block
with no empty lines. This block follows the <code>goog.module</code> declaration separated
<a href="#source-file-structure">by a single empty line</a>. The entire argument to
<code>goog.require</code> or <code>goog.requireType</code> is a namespace defined by a <code>goog.module</code>
in a separate file. <code>goog.require</code> and <code>goog.requireType</code> statements may not
appear anywhere else in the file.</p>
<p>Each <code>goog.require</code> or <code>goog.requireType</code> is assigned to a single constant
alias, or else destructured into several constant aliases. These aliases are the
only acceptable way to refer to dependencies in type annotations or code. Fully
qualified namespaces must not be used anywhere, except as an argument to
<code>goog.require</code> or <code>goog.requireType</code>.</p>
<p><strong>Exception</strong>: Types, variables, and functions declared in externs files have to
use their fully qualified name in type annotations and code.</p>
<p>Aliases must match the final dot-separated component of the imported module's
namespace.</p>
<p><strong>Exception</strong>: In certain cases, additional components of the namespace can be
used to form a longer alias. The resulting alias must retain the original
identifier's casing such that it still correctly identifies its type. Longer
aliases may be used to disambiguate otherwise identical aliases, or if it
significantly improves readability. In addition, a longer alias must be used to
prevent masking native types such as <code>Element</code>, <code>Event</code>, <code>Error</code>, <code>Map</code>, and
<code>Promise</code> (for a more complete list, see <a href="https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects">Standard Built-in Objects</a> and <a href="https://developer.mozilla.org/en-US/docs/Web/API">Web
APIs</a> at MDN). When renaming destructured aliases, a space must follow the colon
as required in <a href="#formatting-horizontal-whitespace">??</a>.</p>
<p>A file should not contain both a <code>goog.require</code> and a <code>goog.requireType</code>
statement for the same namespace. If the imported name is used both in code and
in type annotations, it should be imported by a single <code>goog.require</code> statement.</p>
<p>If a module is imported only for its side effects, the call must be a
<code>goog.require</code> (not a <code>goog.requireType</code>) and assignment may be omitted. A
comment is required to explain why this is needed and suppress a compiler
warning.</p>
<p>The lines are sorted according to the following rules: All requires with a name
on the left hand side come first, sorted alphabetically by those names. Then
destructuring requires, again sorted by the names on the left hand side.
Finally, any require calls that are standalone (generally these are for modules
imported just for their side effects).</p>
<p>Tip: There’s no need to memorize this order and enforce it manually. You can
rely on your IDE to report requires
that are not sorted correctly.</p>
<p>If a long alias or module name would cause a line to exceed the 80-column limit,
it <strong>must not</strong> be wrapped: require lines are an exception to the 80-column
limit.</p>
<p>Example:</p>
<pre><code class="language-js prettyprint">// Standard alias style.
const MyClass = goog.require('some.package.MyClass');
const MyType = goog.requireType('some.package.MyType');
// Namespace-based alias used to disambiguate.
const NsMyClass = goog.require('other.ns.MyClass');
// Namespace-based alias used to prevent masking native type.
const RendererElement = goog.require('web.renderer.Element');
// Out of sequence namespace-based aliases used to improve readability.
// Also, require lines longer than 80 columns must not be wrapped.
const SomeDataStructureModel = goog.requireType('identical.package.identifiers.models.SomeDataStructure');
const SomeDataStructureProto = goog.require('proto.identical.package.identifiers.SomeDataStructure');
// Standard alias style.
const asserts = goog.require('goog.asserts');
// Namespace-based alias used to disambiguate.
const testingAsserts = goog.require('goog.testing.asserts');
// Standard destructuring into aliases.
const {clear, clone} = goog.require('goog.array');
const {Rgb} = goog.require('goog.color');
// Namespace-based destructuring into aliases in order to disambiguate.
const {SomeType: FooSomeType} = goog.requireType('foo.types');
const {clear: objectClear, clone: objectClone} = goog.require('goog.object');
// goog.require without an alias in order to trigger side effects.
/** @suppress {extraRequire} Initializes MyFramework. */
goog.require('my.framework.initialization');
</code></pre>
<p>Discouraged:</p>
<pre><code class="language-js badcode prettyprint">// If necessary to disambiguate, prefer PackageClass over SomeClass as it is
// closer to the format of the module name.
const SomeClass = goog.require('some.package.Class');
</code></pre>
<p>Disallowed:</p>
<pre><code class="language-js badcode prettyprint">// Extra terms must come from the namespace.
const MyClassForBizzing = goog.require('some.package.MyClass');
// Alias must include the entire final namespace component.
const MyClass = goog.require('some.package.MyClassForBizzing');
// Alias must not mask native type (should be `const JspbMap` here).
const Map = goog.require('jspb.Map');
// Don't break goog.require lines over 80 columns.
const SomeDataStructure =
goog.require('proto.identical.package.identifiers.SomeDataStructure');
// Alias must be based on the namespace.
const randomName = goog.require('something.else');
// Missing a space after the colon.
const {Foo:FooProto} = goog.require('some.package.proto.Foo');
// goog.requireType without an alias.
goog.requireType('some.package.with.a.Type');
/**
* @param {!some.unimported.Dependency} param All external types used in JSDoc
* annotations must be goog.require'd, unless declared in externs.
*/
function someFunction(param) {
// goog.require lines must be at the top level before any other code.
const alias = goog.require('my.long.name.alias');
// ...
}
</code></pre>
<h3 id="file-implementation">3.7 The file’s implementation</h3>
<p>The actual implementation follows after all dependency information is declared
(separated by at least one blank line).</p>
<p>This may consist of any module-local declarations (constants, variables,
classes, functions, etc), as well as any exported symbols.
</p>
<h2 id="formatting">4 Formatting</h2>
<p><strong>Terminology Note</strong>: <em>block-like construct</em> refers to the body of a class,
function, method, or brace-delimited block of code. Note that, by
<a href="#features-array-literals">??</a> and <a href="#features-object-literals">??</a>, any array or
object literal may optionally be treated as if it were a block-like construct.</p>
<p>Tip: Use <code>clang-format</code>. The JavaScript community has invested effort to make
sure clang-format <q>does the right thing</q> on JavaScript files. <code>clang-format</code> has
integration with several popular
editors.</p>
<h3 id="formatting-braces">4.1 Braces</h3>
<h4 id="formatting-braces-all">4.1.1 Braces are used for all control structures</h4>
<p>Braces are required for all control structures (i.e. <code>if</code>, <code>else</code>, <code>for</code>, <code>do</code>,
<code>while</code>, as well as any others), even if the body contains only a single
statement. The first statement of a non-empty block must begin on its own line.</p>
<p>Disallowed:</p>
<pre><code class="language-js badcode prettyprint">if (someVeryLongCondition())
doSomething();
for (let i = 0; i < foo.length; i++) bar(foo[i]);
</code></pre>
<p><strong>Exception</strong>: A simple if statement that can fit entirely on a single line with
no wrapping (and that doesn’t have an else) may be kept on a single line with no
braces when it improves readability. This is the only case in which a control
structure may omit braces and newlines.</p>
<pre><code class="language-js prettyprint">if (shortCondition()) foo();
</code></pre>
<h4 id="formatting-nonempty-blocks">4.1.2 Nonempty blocks: K&R style</h4>
<p>Braces follow the Kernighan and Ritchie style (<q><a href="http://www.codinghorror.com/blog/2012/07/new-programming-jargon.html">Egyptian brackets</a></q>) for
<em>nonempty</em> blocks and block-like constructs:</p>
<ul>
<li>No line break before the opening brace.</li>
<li>Line break after the opening brace.</li>
<li>Line break before the closing brace.</li>
<li>Line break after the closing brace <em>if</em> that brace terminates a statement or
the body of a function or class statement, or a class method. Specifically,
there is <em>no</em> line break after the brace if it is followed by <code>else</code>, <code>catch</code>,
<code>while</code>, or a comma, semicolon, or right-parenthesis.</li>
</ul>
<p>Example:</p>
<pre><code class="language-js prettyprint">class InnerClass {
constructor() {}
/** @param {number} foo */
method(foo) {
if (condition(foo)) {
try {
// Note: this might fail.
something();
} catch (err) {
recover();
}
}
}
}
</code></pre>
<h4 id="formatting-empty-blocks">4.1.3 Empty blocks: may be concise</h4>
<p>An empty block or block-like construct <em>may</em> be closed immediately after it is
opened, with no characters, space, or line break in between (i.e. <code>{}</code>),
<strong>unless</strong> it is a part of a <em>multi-block statement</em> (one that directly contains
multiple blocks: <code>if</code>/<code>else</code> or <code>try</code>/<code>catch</code>/<code>finally</code>).</p>
<p>Example:</p>
<pre><code class="language-js prettyprint">function doNothing() {}
</code></pre>
<p>Disallowed:</p>
<pre><code class="language-js prettyprint badcode">if (condition) {
// …
} else if (otherCondition) {} else {
// …
}
try {
// …
} catch (e) {}
</code></pre>
<h3 id="formatting-block-indentation">4.2 Block indentation: +2 spaces</h3>
<p>Each time a new block or block-like construct is opened, the indent increases by
two spaces. When the block ends, the indent returns to the previous indent
level. The indent level applies to both code and comments throughout the
block. (See the example in <a href="#formatting-nonempty-blocks">??</a>).</p>
<h4 id="formatting-array-literals">4.2.1 Array literals: optionally <q>block-like</q></h4>
<p>Any array literal may optionally be formatted as if it were a “block-like
construct.” For example, the following are all valid (<strong>not</strong> an exhaustive
list):</p>
<pre><code class="language-js prettyprint columns">const a = [
0,
1,
2,
];
const b =
[0, 1, 2];
</code></pre>
<pre><code class="language-js prettyprint columns">const c = [0, 1, 2];
someMethod(foo, [
0, 1, 2,
], bar);
</code></pre>
<p>Other combinations are allowed, particularly when emphasizing semantic groupings
between elements, but should not be used only to reduce the vertical size of
larger arrays.</p>
<h4 id="formatting-object-literals">4.2.2 Object literals: optionally <q>block-like</q></h4>
<p>Any object literal may optionally be formatted as if it were a “block-like
construct.” The same examples apply as <a href="#formatting-array-literals">??</a>. For
example, the following are all valid (<strong>not</strong> an exhaustive list):</p>
<pre><code class="language-js prettyprint columns">const a = {
a: 0,
b: 1,
};
const b =
{a: 0, b: 1};
</code></pre>
<pre><code class="language-js prettyprint columns">const c = {a: 0, b: 1};
someMethod(foo, {
a: 0, b: 1,
}, bar);
</code></pre>
<h4 id="formatting-class-literals">4.2.3 Class literals</h4>
<p>Class literals (whether declarations or expressions) are indented as blocks. Do
not add semicolons after methods, or after the closing brace of a class
<em>declaration</em> (statements—such as assignments—that contain class <em>expressions</em>
are still terminated with a semicolon). Use the <code>extends</code> keyword, but not the
<code>@extends</code> JSDoc annotation unless the class extends a templatized type.</p>
<p>Example:</p>
<pre><code class="language-js prettyprint columns">class Foo {
constructor() {
/** @type {number} */
this.x = 42;
}
/** @return {number} */
method() {
return this.x;
}
}
Foo.Empty = class {};
</code></pre>
<pre><code class="language-js prettyprint columns">/** @extends {Foo<string>} */
foo.Bar = class extends Foo {
/** @override */
method() {
return super.method() / 2;
}
};
/** @interface */
class Frobnicator {
/** @param {string} message */
frobnicate(message) {}
}
</code></pre>
<h4 id="formatting-function-expressions">4.2.4 Function expressions</h4>
<p>When declaring an anonymous function in the list of arguments for a function
call, the body of the function is indented two spaces more than the preceding
indentation depth.</p>
<p>Example:</p>
<pre><code class="language-js prettyprint">prefix.something.reallyLongFunctionName('whatever', (a1, a2) => {
// Indent the function body +2 relative to indentation depth
// of the 'prefix' statement one line above.
if (a1.equals(a2)) {
someOtherLongFunctionName(a1);
} else {
andNowForSomethingCompletelyDifferent(a2.parrot);
}
});
some.reallyLongFunctionCall(arg1, arg2, arg3)
.thatsWrapped()
.then((result) => {
// Indent the function body +2 relative to the indentation depth
// of the '.then()' call.
if (result) {
result.use();
}
});
</code></pre>
<h4 id="formatting-switch-statements">4.2.5 Switch statements</h4>
<p>As with any other block, the contents of a switch block are indented +2.</p>
<p>After a switch label, a newline appears, and the indentation level is increased
+2, exactly as if a block were being opened. An explicit block may be used if
required by lexical scoping. The following switch label returns to the previous
indentation level, as if a block had been closed.</p>
<p>A blank line is optional between a <code>break</code> and the following case.</p>
<p>Example:</p>
<pre><code class="language-js prettyprint">switch (animal) {
case Animal.BANDERSNATCH:
handleBandersnatch();
break;
case Animal.JABBERWOCK:
handleJabberwock();
break;
default:
throw new Error('Unknown animal');
}
</code></pre>
<h3 id="formatting-statements">4.3 Statements</h3>
<h4 id="formatting-one-statement-perline">4.3.1 One statement per line</h4>
<p>Each statement is followed by a line-break.</p>
<h4 id="formatting-semicolons-are-required">4.3.2 Semicolons are required</h4>
<p>Every statement must be terminated with a semicolon. Relying on automatic
semicolon insertion is forbidden.</p>
<h3 id="formatting-column-limit">4.4 Column limit: 80</h3>
<p>JavaScript code has a column limit of 80 characters. Except as noted below, any
line that would exceed this limit must be line-wrapped, as explained in
<a href="#formatting-line-wrapping">??</a>.</p>
<p><strong>Exceptions:</strong></p>
<ol>
<li><code>goog.module</code>, <code>goog.require</code> and <code>goog.requireType</code> statements (see
<a href="#file-goog-module">??</a> and <a href="#file-goog-require">??</a>).</li>
<li>ES module <code>import</code> and <code>export from</code> statements (see
<a href="#es-module-imports">??</a> and <a href="#es-module-export-from">??</a>).</li>
<li>Lines where obeying the column limit is not possible or would hinder
discoverability. Examples include:
<ul>
<li>A long URL which should be clickable in source.</li>
<li>A shell command intended to be copied-and-pasted.</li>
<li>A long string literal which may need to be copied or searched for wholly
(e.g., a long file path).</li>
</ul></li>
</ol>
<h3 id="formatting-line-wrapping">4.5 Line-wrapping</h3>
<p><strong>Terminology Note</strong>: <em>Line wrapping</em> is breaking a chunk of code into multiple
lines to obey column limit, where the chunk could otherwise legally fit in a
single line.</p>
<p>There is no comprehensive, deterministic formula showing <em>exactly</em> how to
line-wrap in every situation. Very often there are several valid ways to
line-wrap the same piece of code.</p>
<p>Note: While the typical reason for line-wrapping is to avoid overflowing the
column limit, even code that would in fact fit within the column limit may be
line-wrapped at the author's discretion.</p>
<p>Tip: Extracting a method or local variable may solve the problem without the
need to line-wrap.</p>
<h4 id="formatting-where-to-break">4.5.1 Where to break</h4>
<p>The prime directive of line-wrapping is: prefer to break at a <strong>higher syntactic
level</strong>. </p>
<p>Preferred:</p>
<pre><code class="language-js prettyprint">currentEstimate =
calc(currentEstimate + x * currentEstimate) /
2.0;
</code></pre>