This section describes JavaScript's lexical grammar. The source text of ECMAScript scripts gets scanned from left to right and is converted into a sequence of input elements which are tokens, control characters, line terminators, comments or white space. ECMAScript also defines certain keywords and literals and has rules for automatic insertion of semicolons to end statements.
Control characters
Control characters have no visual representation but are used to control the interpretation of the text.
| Code point | Name | Abbreviation | Description |
|---|---|---|---|
U+200C |
Zero width non-joiner | <ZWNJ> | Placed between characters to prevent being connected into ligatures in certain languages (Wikipedia). |
U+200D |
Zero width joiner | <ZWJ> | Placed between characters that would not normally be connected in order to cause the characters to be rendered using their connected form in certain languages (Wikipedia). |
U+FEFF |
Byte order mark | <BOM> | Used at the start of the script to mark it as Unicode and the text's byte order (Wikipedia). |
White space
White space characters improve the readability of source text and separate tokens from each other. These characters are usually unnecessary for the functionality of the code. Minification tools are often used to remove whitespace in order to reduce the amount of data that needs to be transferred.
| Code point | Name | Abbreviation | Description | Escape sequence |
|---|---|---|---|---|
| U+0009 | Character tabulation | <HT> | Horizontal tabulation | \t |
| U+000B | Line tabulation | <VT> | Vertical tabulation | \v |
| U+000C | Form feed | <FF> | Page breaking control character (Wikipedia). | \f |
| U+0020 | Space | <SP> | Normal space | |
| U+00A0 | No-break space | <NBSP> | Normal space, but no point at which a line may break | |
| Others | Other Unicode space characters | <USP> | Spaces in Unicode on Wikipedia |
Line terminators
In addition to white space characters, line terminator characters are used to improve the readability of the source text. However, in some cases, line terminators can influence the the execution of JavaScript code as there are a few places where they are forbidden. Line terminators also affect the process of automatic semicolon insertion. Line terminators are matched by the \s class in regular expressions.
Only the following Unicode code points are treated as line terminators in ECMAScript, other line breaking characters are treated as white space (for example, Next Line, NEL, U+0085 is considered as white space).
| Code point | Name | Abbreviation | Description | Escape sequence |
|---|---|---|---|---|
| U+000A | Line Feed | <LF> | New line character in UNIX systems. | \n |
| U+000D | Carriage Return | <CR> | New line character in Commodore and early Mac systems. | \r |
| U+2028 | Line Separator | <LS> | Wikipedia | |
| U+2029 | Paragraph Separator | <PS> | Wikipedia |
Comments
Comments are used to add hints, notes, suggestions, or warnings to JavaScript code. This can make it easier to read and understand. They can also be used to disable code to prevent it from being executed; this can be a valuable debugging tool.
JavaScript has two ways of assigning comments in its code.
The first way is the // comment; this makes all text following it on the same line into a comment. For example:
function comment() {
// This is a one line JavaScript comment
console.log("Hello world!");
}
comment();
The second way is the /* */ style, which is much more flexible.
For example, you can use it on a single line:
function comment() {
/* This is a one line JavaScript comment */
console.log("Hello world!");
}
comment();
You can also make multiple-line comments, like this:
function comment() {
/* This comment spans multiple lines. Notice
that we don't need to end the comment until we're done. */
console.log("Hello world!");
}
comment();
You can also use it in the middle of a line, if you wish, although this can make your code harder to read so it should be used with caution:
function comment(x) {
console.log("Hello " + x /* insert the value of x */ + " !");
}
comment("world");
In addition, you can use it to disable code to prevent it from running, by wrapping code in a comment, like this:
function comment() {
/* console.log("Hello world!"); */
}
comment();
In this case, the console.log() call is never issued, since it's inside a comment. Any number of lines of code can be disabled this way.
Keywords
Reserved keywords as of ECMAScript 6
Future reserved keywords
The following are reserved as future keywords by the ECMAScript specification. They have no special functionality at present, but they might at some future time, so they cannot be used as identifiers. These keywords may not be used in either strict or non-strict mode.
enumawait
The following are reserved as future keywords when they are found in strict mode code:
implementspackageprotectedstaticinterfaceprivatepublic
Future reserved keywords in older standards
The following are reserved as future keywords by older ECMAScript specifications (ECMAScript 1 till 3).
abstractbooleanbytechardoublefinalfloatgotointlongnativeshortsynchronizedtransientvolatile
Additionally, the literals null, true, and false are reserved in ECMAScript for their normal uses.
Reserved word usage
Reserved words actually only apply to Identifiers (vs. IdentifierNames) . As described in es5.github.com/#A.1, these are all IdentifierNames which do not exclude ReservedWords.
a.import
a["import"]
a = { import: "test" }.
On the other hand the following is illegal because it's an Identifier, which is an IdentifierName without the reserved words. Identifiers are used for FunctionDeclaration and FunctionExpression.
function import() {} // Illegal.
Literals
Null literal
See also null for more information.
null
Boolean literal
See also Boolean for more information.
true false
Numeric literals
Decimal
1234567890 42 // Caution when using leading zeros: 0888 // 888 parsed as decimal 0777 // parsed as octal, 511 in decimal
Note that decimal literals can start with a zero (0) followed by another decimal digit, but If the next digit after the leading 0 is smaller than 8, the number gets parsed as an octal number. This won't throw in JavaScript, see bug 957513. See also the page about parseInt().
Binary
Binary number syntax uses a leading zero followed by a lowercase or uppercase Latin letter "B" (0b or 0B). Because this syntax is new in ECMAScript 6, see the browser compatibility table, below. If the digits after the 0b are not 0 or 1, the following SyntaxError is thrown: "Missing binary digits after 0b".
var FLT_SIGNBIT = 0b10000000000000000000000000000000; // 2147483648 var FLT_EXPONENT = 0b01111111100000000000000000000000; // 2139095040 var FLT_MANTISSA = 0B00000000011111111111111111111111; // 8388607
Octal
Octal number syntax uses a leading zero followed by a lowercase or uppercase Latin letter "O" (0o or 0O). Because this syntax is new in ECMAScript 6, see the browser compatibility table, below. If the digits after the 0o are outside the range (01234567), the following SyntaxError is thrown: "Missing octal digits after 0o".
var n = 0O755; // 493 var m = 0o644; // 420 // Also possible with leading zeros (see note about decimals above) 0755 0644
Hexadecimal
Hexadecimal number syntax uses a leading zero followed by a lowercase or uppercase Latin letter "X" (0x or 0X). If the digits after 0x are outside the range (0123456789ABCDEF), the following SyntaxError is thrown: "Identifier starts immediately after numeric literal".
0xFFFFFFFFFFFFFFFFF // 295147905179352830000 0x123456789ABCDEF // 81985529216486900 0XA // 10
Object literals
See also Object and Object initializer for more information.
var o = { a: "foo", b: "bar", c: 42 };
// shorthand notation. New in ES6
var a = "foo", b = "bar", c = 42;
var o = {a, b, c};
// instead of
var o = { a: a, b: b, c: c };
Array literals
See also Array for more information.
[1954, 1974, 1990, 2014]
String literals
'foo' "bar"
Hexadecimal escape sequences
'\xA9' // "©"
Unicode escape sequences
The Unicode escape sequences require at least four characters following \u.
'\u00A9' // "©"
Unicode code point escapes
New in ECMAScript 6. With Unicode code point escapes, any character can be escaped using hexadecimal numbers so that it is possible to use Unicode code points up to 0x10FFFF. With simple Unicode escapes it is often necessary to write the surrogate halves separately to achieve the same.
See also String.fromCodePoint() or String.prototype.codePointAt().
'\u{2F804}'
// the same with simple Unicode escapes
'\uD87E\uDC04'
Regular expression literals
See also RegExp for more information.
/ab+c/g // An "empty" regular expression literal // The empty non-capturing group is necessary // to avoid ambiguity with single-line comments. /(?:)/
Template literals
See also template strings for more information.
`string text`
`string text line 1
string text line 2`
`string text ${expression} string text`
tag `string text ${expression} string text`
Automatic semicolon insertion
Some JavaScript statements must be terminated with semicolons and are therefore affected by automatic semicolon insertion (ASI):
- Empty statement
let,const, variable statementimport,export, module declaration- Expression statement
debuggercontinue,break,throwreturn
The ECMAScript specification mentions three rules of semicolon insertion.
1. A semicolon is inserted before, when a Line terminator or "}" is encountered that is not allowed by the grammar.
{ 1 2 } 3
// is transformed by ASI into
{ 1 2 ;} 3;
2. A semicolon is inserted at the end, when the end of the input stream of tokens is detected and the the parser is unable to parse the single input stream as a complete program.
Here ++ is not treated as a postfix operator applying to variable b, because a line terminator occurs between b and ++.
a = b ++c // is transformend by ASI into a = b; ++c;
3. A semicolon is inserted at the end, when a statement with restricted productions in the grammar is followed by a line terminator. These statements with "no LineTerminator here" rules are:
- PostfixExpressions (
++and--) continuebreakreturnyield,yield*module
return a + b // is transformed by ASI into return; a + b;
Specifications
| Specification | Status | Comment |
|---|---|---|
| ECMAScript 1st Edition. | Standard | Initial definition. |
| ECMAScript 5.1 (ECMA-262) The definition of 'Lexical Conventions' in that specification. |
Standard | |
| ECMAScript 6 (ECMA-262) The definition of 'Lexical Grammar' in that specification. |
Release Candidate | Added: Binary and Octal Numeric literals, Unicode code point escapes, Templates |
Browser compatibility
| Feature | Chrome | Firefox (Gecko) | Internet Explorer | Opera | Safari |
|---|---|---|---|---|---|
| Basic support | (Yes) | (Yes) | (Yes) | (Yes) | (Yes) |
| Binary and octal numeric literals ( 0b and 0o) |
41 | 25 (25) | ? | 28 | ? |
| Unicode code point escapes ( \u{}) |
? | Not supported bug 952985 |
? | ? | ? |
| Shorthand notation for object literals | Not supported | 33 (33) | Not supported | Not supported | Not supported |
| Template literals | Not supported | 34 (34) | Not supported | Not supported | Not supported |
| Feature | Android | Chrome for Android | Firefox Mobile (Gecko) | IE Mobile | Opera Mobile | Safari Mobile |
|---|---|---|---|---|---|---|
| Basic support | (Yes) | (Yes) | (Yes) | (Yes) | (Yes) | (Yes) |
| Binary and octal numeric literals | ? | 41 | 33.0 (33) | ? | ? | ? |
| Unicode code point escapes | ? | ? | Not supported bug 952985 |
? | ? | ? |
| Shorthand notation for object literals | Not supported | Not supported | 33.0 (33) | Not supported | Not supported | Not supported |
| Template literals | Not supported | Not supported | 34.0 (34) | Not supported | Not supported | Not supported |
Firefox-specific notes
- Prior to Firefox 5 (JavaScript 1.8.6), future reserved keywords could be used when not in strict mode. This ECMAScript violation was fixed in Firefox 5.