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Expected property shorthand. Open
LESS_TEXT:LESS_TEXT,
- Read upRead up
- Exclude checks
Require Object Literal Shorthand Syntax (object-shorthand)
EcmaScript 6 provides a concise form for defining object literal methods and properties. This syntax can make defining complex object literals much cleaner.
Here are a few common examples using the ES5 syntax:
// properties
var foo = {
x: x,
y: y,
z: z,
};
// methods
var foo = {
a: function() {},
b: function() {}
};
Now here are ES6 equivalents:
/*eslint-env es6*/
// properties
var foo = {x, y, z};
// methods
var foo = {
a() {},
b() {}
};
Rule Details
This rule enforces the use of the shorthand syntax. This applies to all methods (including generators) defined in object literals and any properties defined where the key name matches name of the assigned variable.
Each of the following properties would warn:
/*eslint object-shorthand: "error"*/
/*eslint-env es6*/
var foo = {
w: function() {},
x: function *() {},
[y]: function() {},
z: z
};
In that case the expected syntax would have been:
/*eslint object-shorthand: "error"*/
/*eslint-env es6*/
var foo = {
w() {},
*x() {},
[y]() {},
z
};
This rule does not flag arrow functions inside of object literals. The following will not warn:
/*eslint object-shorthand: "error"*/
/*eslint-env es6*/
var foo = {
x: (y) => y
};
Options
The rule takes an option which specifies when it should be applied. It can be set to one of the following values:
-
"always"
(default) expects that the shorthand will be used whenever possible. -
"methods"
ensures the method shorthand is used (also applies to generators). -
"properties"
ensures the property shorthand is used (where the key and variable name match). -
"never"
ensures that no property or method shorthand is used in any object literal. -
"consistent"
ensures that either all shorthand or all longform will be used in an object literal. -
"consistent-as-needed"
ensures that either all shorthand or all longform will be used in an object literal, but ensures all shorthand whenever possible.
You can set the option in configuration like this:
{
"object-shorthand": ["error", "always"]
}
Additionally, the rule takes an optional object configuration:
-
"avoidQuotes": true
indicates that longform syntax is preferred whenever the object key is a string literal (default:false
). Note that this option can only be enabled when the string option is set to"always"
,"methods"
, or"properties"
. -
"ignoreConstructors": true
can be used to prevent the rule from reporting errors for constructor functions. (By default, the rule treats constructors the same way as other functions.) Note that this option can only be enabled when the string option is set to"always"
or"methods"
. -
"avoidExplicitReturnArrows": true
indicates that methods are preferred over explicit-return arrow functions for function properties. (By default, the rule allows either of these.) Note that this option can only be enabled when the string option is set to"always"
or"methods"
.
avoidQuotes
{
"object-shorthand": ["error", "always", { "avoidQuotes": true }]
}
Example of incorrect code for this rule with the "always", { "avoidQuotes": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidQuotes": true }]*/
/*eslint-env es6*/
var foo = {
"bar-baz"() {}
};
Example of correct code for this rule with the "always", { "avoidQuotes": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidQuotes": true }]*/
/*eslint-env es6*/
var foo = {
"bar-baz": function() {},
"qux": qux
};
ignoreConstructors
{
"object-shorthand": ["error", "always", { "ignoreConstructors": true }]
}
Example of correct code for this rule with the "always", { "ignoreConstructors": true }
option:
/*eslint object-shorthand: ["error", "always", { "ignoreConstructors": true }]*/
/*eslint-env es6*/
var foo = {
ConstructorFunction: function() {}
};
avoidExplicitReturnArrows
{
"object-shorthand": ["error", "always", { "avoidExplicitReturnArrows": true }]
}
Example of incorrect code for this rule with the "always", { "avoidExplicitReturnArrows": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidExplicitReturnArrows": true }]*/
/*eslint-env es6*/
var foo = {
foo: (bar, baz) => {
return bar + baz;
},
qux: (foobar) => {
return foobar * 2;
}
};
Example of correct code for this rule with the "always", { "avoidExplicitReturnArrows": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidExplicitReturnArrows": true }]*/
/*eslint-env es6*/
var foo = {
foo(bar, baz) {
return bar + baz;
},
qux: foobar => foobar * 2
};
Example of incorrect code for this rule with the "consistent"
option:
/*eslint object-shorthand: [2, "consistent"]*/
/*eslint-env es6*/
var foo = {
a,
b: "foo",
};
Examples of correct code for this rule with the "consistent"
option:
/*eslint object-shorthand: [2, "consistent"]*/
/*eslint-env es6*/
var foo = {
a: a,
b: "foo"
};
var bar = {
a,
b,
};
Example of incorrect code with the "consistent-as-needed"
option, which is very similar to "consistent"
:
/*eslint object-shorthand: [2, "consistent-as-needed"]*/
/*eslint-env es6*/
var foo = {
a: a,
b: b,
};
When Not To Use It
Anyone not yet in an ES6 environment would not want to apply this rule. Others may find the terseness of the shorthand syntax harder to read and may not want to encourage it with this rule.
Further Reading
Object initializer - MDN Source: http://eslint.org/docs/rules/
Expected property shorthand. Open
refresh:refresh
- Read upRead up
- Exclude checks
Require Object Literal Shorthand Syntax (object-shorthand)
EcmaScript 6 provides a concise form for defining object literal methods and properties. This syntax can make defining complex object literals much cleaner.
Here are a few common examples using the ES5 syntax:
// properties
var foo = {
x: x,
y: y,
z: z,
};
// methods
var foo = {
a: function() {},
b: function() {}
};
Now here are ES6 equivalents:
/*eslint-env es6*/
// properties
var foo = {x, y, z};
// methods
var foo = {
a() {},
b() {}
};
Rule Details
This rule enforces the use of the shorthand syntax. This applies to all methods (including generators) defined in object literals and any properties defined where the key name matches name of the assigned variable.
Each of the following properties would warn:
/*eslint object-shorthand: "error"*/
/*eslint-env es6*/
var foo = {
w: function() {},
x: function *() {},
[y]: function() {},
z: z
};
In that case the expected syntax would have been:
/*eslint object-shorthand: "error"*/
/*eslint-env es6*/
var foo = {
w() {},
*x() {},
[y]() {},
z
};
This rule does not flag arrow functions inside of object literals. The following will not warn:
/*eslint object-shorthand: "error"*/
/*eslint-env es6*/
var foo = {
x: (y) => y
};
Options
The rule takes an option which specifies when it should be applied. It can be set to one of the following values:
-
"always"
(default) expects that the shorthand will be used whenever possible. -
"methods"
ensures the method shorthand is used (also applies to generators). -
"properties"
ensures the property shorthand is used (where the key and variable name match). -
"never"
ensures that no property or method shorthand is used in any object literal. -
"consistent"
ensures that either all shorthand or all longform will be used in an object literal. -
"consistent-as-needed"
ensures that either all shorthand or all longform will be used in an object literal, but ensures all shorthand whenever possible.
You can set the option in configuration like this:
{
"object-shorthand": ["error", "always"]
}
Additionally, the rule takes an optional object configuration:
-
"avoidQuotes": true
indicates that longform syntax is preferred whenever the object key is a string literal (default:false
). Note that this option can only be enabled when the string option is set to"always"
,"methods"
, or"properties"
. -
"ignoreConstructors": true
can be used to prevent the rule from reporting errors for constructor functions. (By default, the rule treats constructors the same way as other functions.) Note that this option can only be enabled when the string option is set to"always"
or"methods"
. -
"avoidExplicitReturnArrows": true
indicates that methods are preferred over explicit-return arrow functions for function properties. (By default, the rule allows either of these.) Note that this option can only be enabled when the string option is set to"always"
or"methods"
.
avoidQuotes
{
"object-shorthand": ["error", "always", { "avoidQuotes": true }]
}
Example of incorrect code for this rule with the "always", { "avoidQuotes": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidQuotes": true }]*/
/*eslint-env es6*/
var foo = {
"bar-baz"() {}
};
Example of correct code for this rule with the "always", { "avoidQuotes": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidQuotes": true }]*/
/*eslint-env es6*/
var foo = {
"bar-baz": function() {},
"qux": qux
};
ignoreConstructors
{
"object-shorthand": ["error", "always", { "ignoreConstructors": true }]
}
Example of correct code for this rule with the "always", { "ignoreConstructors": true }
option:
/*eslint object-shorthand: ["error", "always", { "ignoreConstructors": true }]*/
/*eslint-env es6*/
var foo = {
ConstructorFunction: function() {}
};
avoidExplicitReturnArrows
{
"object-shorthand": ["error", "always", { "avoidExplicitReturnArrows": true }]
}
Example of incorrect code for this rule with the "always", { "avoidExplicitReturnArrows": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidExplicitReturnArrows": true }]*/
/*eslint-env es6*/
var foo = {
foo: (bar, baz) => {
return bar + baz;
},
qux: (foobar) => {
return foobar * 2;
}
};
Example of correct code for this rule with the "always", { "avoidExplicitReturnArrows": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidExplicitReturnArrows": true }]*/
/*eslint-env es6*/
var foo = {
foo(bar, baz) {
return bar + baz;
},
qux: foobar => foobar * 2
};
Example of incorrect code for this rule with the "consistent"
option:
/*eslint object-shorthand: [2, "consistent"]*/
/*eslint-env es6*/
var foo = {
a,
b: "foo",
};
Examples of correct code for this rule with the "consistent"
option:
/*eslint object-shorthand: [2, "consistent"]*/
/*eslint-env es6*/
var foo = {
a: a,
b: "foo"
};
var bar = {
a,
b,
};
Example of incorrect code with the "consistent-as-needed"
option, which is very similar to "consistent"
:
/*eslint object-shorthand: [2, "consistent-as-needed"]*/
/*eslint-env es6*/
var foo = {
a: a,
b: b,
};
When Not To Use It
Anyone not yet in an ES6 environment would not want to apply this rule. Others may find the terseness of the shorthand syntax harder to read and may not want to encourage it with this rule.
Further Reading
Object initializer - MDN Source: http://eslint.org/docs/rules/
Expected property shorthand. Open
ELLIPSES_TEXT:ELLIPSES_TEXT
- Read upRead up
- Exclude checks
Require Object Literal Shorthand Syntax (object-shorthand)
EcmaScript 6 provides a concise form for defining object literal methods and properties. This syntax can make defining complex object literals much cleaner.
Here are a few common examples using the ES5 syntax:
// properties
var foo = {
x: x,
y: y,
z: z,
};
// methods
var foo = {
a: function() {},
b: function() {}
};
Now here are ES6 equivalents:
/*eslint-env es6*/
// properties
var foo = {x, y, z};
// methods
var foo = {
a() {},
b() {}
};
Rule Details
This rule enforces the use of the shorthand syntax. This applies to all methods (including generators) defined in object literals and any properties defined where the key name matches name of the assigned variable.
Each of the following properties would warn:
/*eslint object-shorthand: "error"*/
/*eslint-env es6*/
var foo = {
w: function() {},
x: function *() {},
[y]: function() {},
z: z
};
In that case the expected syntax would have been:
/*eslint object-shorthand: "error"*/
/*eslint-env es6*/
var foo = {
w() {},
*x() {},
[y]() {},
z
};
This rule does not flag arrow functions inside of object literals. The following will not warn:
/*eslint object-shorthand: "error"*/
/*eslint-env es6*/
var foo = {
x: (y) => y
};
Options
The rule takes an option which specifies when it should be applied. It can be set to one of the following values:
-
"always"
(default) expects that the shorthand will be used whenever possible. -
"methods"
ensures the method shorthand is used (also applies to generators). -
"properties"
ensures the property shorthand is used (where the key and variable name match). -
"never"
ensures that no property or method shorthand is used in any object literal. -
"consistent"
ensures that either all shorthand or all longform will be used in an object literal. -
"consistent-as-needed"
ensures that either all shorthand or all longform will be used in an object literal, but ensures all shorthand whenever possible.
You can set the option in configuration like this:
{
"object-shorthand": ["error", "always"]
}
Additionally, the rule takes an optional object configuration:
-
"avoidQuotes": true
indicates that longform syntax is preferred whenever the object key is a string literal (default:false
). Note that this option can only be enabled when the string option is set to"always"
,"methods"
, or"properties"
. -
"ignoreConstructors": true
can be used to prevent the rule from reporting errors for constructor functions. (By default, the rule treats constructors the same way as other functions.) Note that this option can only be enabled when the string option is set to"always"
or"methods"
. -
"avoidExplicitReturnArrows": true
indicates that methods are preferred over explicit-return arrow functions for function properties. (By default, the rule allows either of these.) Note that this option can only be enabled when the string option is set to"always"
or"methods"
.
avoidQuotes
{
"object-shorthand": ["error", "always", { "avoidQuotes": true }]
}
Example of incorrect code for this rule with the "always", { "avoidQuotes": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidQuotes": true }]*/
/*eslint-env es6*/
var foo = {
"bar-baz"() {}
};
Example of correct code for this rule with the "always", { "avoidQuotes": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidQuotes": true }]*/
/*eslint-env es6*/
var foo = {
"bar-baz": function() {},
"qux": qux
};
ignoreConstructors
{
"object-shorthand": ["error", "always", { "ignoreConstructors": true }]
}
Example of correct code for this rule with the "always", { "ignoreConstructors": true }
option:
/*eslint object-shorthand: ["error", "always", { "ignoreConstructors": true }]*/
/*eslint-env es6*/
var foo = {
ConstructorFunction: function() {}
};
avoidExplicitReturnArrows
{
"object-shorthand": ["error", "always", { "avoidExplicitReturnArrows": true }]
}
Example of incorrect code for this rule with the "always", { "avoidExplicitReturnArrows": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidExplicitReturnArrows": true }]*/
/*eslint-env es6*/
var foo = {
foo: (bar, baz) => {
return bar + baz;
},
qux: (foobar) => {
return foobar * 2;
}
};
Example of correct code for this rule with the "always", { "avoidExplicitReturnArrows": true }
option:
/*eslint object-shorthand: ["error", "always", { "avoidExplicitReturnArrows": true }]*/
/*eslint-env es6*/
var foo = {
foo(bar, baz) {
return bar + baz;
},
qux: foobar => foobar * 2
};
Example of incorrect code for this rule with the "consistent"
option:
/*eslint object-shorthand: [2, "consistent"]*/
/*eslint-env es6*/
var foo = {
a,
b: "foo",
};
Examples of correct code for this rule with the "consistent"
option:
/*eslint object-shorthand: [2, "consistent"]*/
/*eslint-env es6*/
var foo = {
a: a,
b: "foo"
};
var bar = {
a,
b,
};
Example of incorrect code with the "consistent-as-needed"
option, which is very similar to "consistent"
:
/*eslint object-shorthand: [2, "consistent-as-needed"]*/
/*eslint-env es6*/
var foo = {
a: a,
b: b,
};
When Not To Use It
Anyone not yet in an ES6 environment would not want to apply this rule. Others may find the terseness of the shorthand syntax harder to read and may not want to encourage it with this rule.
Further Reading
Object initializer - MDN Source: http://eslint.org/docs/rules/
There should be no spaces inside this paren. Open
while( numberElms > 0 )
- Read upRead up
- Exclude checks
Disallow or enforce spaces inside of parentheses (space-in-parens)
Some style guides require or disallow spaces inside of parentheses:
foo( 'bar' );
var x = ( 1 + 2 ) * 3;
foo('bar');
var x = (1 + 2) * 3;
Rule Details
This rule will enforce consistency of spacing directly inside of parentheses, by disallowing or requiring one or more spaces to the right of (
and to the left of )
. In either case, ()
will still be allowed.
Options
There are two options for this rule:
-
"never"
(default) enforces zero spaces inside of parentheses -
"always"
enforces a space inside of parentheses
Depending on your coding conventions, you can choose either option by specifying it in your configuration:
"space-in-parens": ["error", "always"]
"never"
Examples of incorrect code for this rule with the default "never"
option:
/*eslint space-in-parens: ["error", "never"]*/
foo( 'bar');
foo('bar' );
foo( 'bar' );
var foo = ( 1 + 2 ) * 3;
( function () { return 'bar'; }() );
Examples of correct code for this rule with the default "never"
option:
/*eslint space-in-parens: ["error", "never"]*/
foo();
foo('bar');
var foo = (1 + 2) * 3;
(function () { return 'bar'; }());
"always"
Examples of incorrect code for this rule with the "always"
option:
/*eslint space-in-parens: ["error", "always"]*/
foo( 'bar');
foo('bar' );
foo('bar');
var foo = (1 + 2) * 3;
(function () { return 'bar'; }());
Examples of correct code for this rule with the "always"
option:
/*eslint space-in-parens: ["error", "always"]*/
foo();
foo( 'bar' );
var foo = ( 1 + 2 ) * 3;
( function () { return 'bar'; }() );
Exceptions
An object literal may be used as a third array item to specify exceptions, with the key "exceptions"
and an array as the value. These exceptions work in the context of the first option. That is, if "always"
is set to enforce spacing, then any "exception" will disallow spacing. Conversely, if "never"
is set to disallow spacing, then any "exception" will enforce spacing.
The following exceptions are available: ["{}", "[]", "()", "empty"]
.
Examples of incorrect code for this rule with the "never", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["{}"] }]*/
foo({bar: 'baz'});
foo(1, {bar: 'baz'});
Examples of correct code for this rule with the "never", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["{}"] }]*/
foo( {bar: 'baz'} );
foo(1, {bar: 'baz'} );
Examples of incorrect code for this rule with the "always", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}"] }]*/
foo( {bar: 'baz'} );
foo( 1, {bar: 'baz'} );
Examples of correct code for this rule with the "always", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}"] }]*/
foo({bar: 'baz'});
foo( 1, {bar: 'baz'});
Examples of incorrect code for this rule with the "never", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["[]"] }]*/
foo([bar, baz]);
foo([bar, baz], 1);
Examples of correct code for this rule with the "never", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["[]"] }]*/
foo( [bar, baz] );
foo( [bar, baz], 1);
Examples of incorrect code for this rule with the "always", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["[]"] }]*/
foo( [bar, baz] );
foo( [bar, baz], 1 );
Examples of correct code for this rule with the "always", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["[]"] }]*/
foo([bar, baz]);
foo([bar, baz], 1 );
Examples of incorrect code for this rule with the "never", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["()"] }]*/
foo((1 + 2));
foo((1 + 2), 1);
Examples of correct code for this rule with the "never", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["()"] }]*/
foo( (1 + 2) );
foo( (1 + 2), 1);
Examples of incorrect code for this rule with the "always", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["()"] }]*/
foo( ( 1 + 2 ) );
foo( ( 1 + 2 ), 1 );
Examples of correct code for this rule with the "always", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["()"] }]*/
foo(( 1 + 2 ));
foo(( 1 + 2 ), 1 );
The "empty"
exception concerns empty parentheses, and works the same way as the other exceptions, inverting the first option.
Example of incorrect code for this rule with the "never", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["empty"] }]*/
foo();
Example of correct code for this rule with the "never", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["empty"] }]*/
foo( );
Example of incorrect code for this rule with the "always", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["empty"] }]*/
foo( );
Example of correct code for this rule with the "always", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["empty"] }]*/
foo();
You can include multiple entries in the "exceptions"
array.
Examples of incorrect code for this rule with the "always", { "exceptions": ["{}", "[]"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}", "[]"] }]*/
bar( {bar:'baz'} );
baz( 1, [1,2] );
foo( {bar: 'baz'}, [1, 2] );
Examples of correct code for this rule with the "always", { "exceptions": ["{}", "[]"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}", "[]"] }]*/
bar({bar:'baz'});
baz( 1, [1,2]);
foo({bar: 'baz'}, [1, 2]);
When Not To Use It
You can turn this rule off if you are not concerned with the consistency of spacing between parentheses.
Related Rules
- [space-in-brackets](space-in-brackets.md) (deprecated) Source: http://eslint.org/docs/rules/
Unexpected var, use let or const instead. Open
var _fulltext;
- Read upRead up
- Exclude checks
require let
or const
instead of var
(no-var)
ECMAScript 6 allows programmers to create variables with block scope instead of function scope using the let
and const
keywords. Block scope is common in many other programming languages and helps programmers avoid mistakes
such as:
var count = people.length;
var enoughFood = count > sandwiches.length;
if (enoughFood) {
var count = sandwiches.length; // accidentally overriding the count variable
console.log("We have " + count + " sandwiches for everyone. Plenty for all!");
}
// our count variable is no longer accurate
console.log("We have " + count + " people and " + sandwiches.length + " sandwiches!");
Rule Details
This rule is aimed at discouraging the use of var
and encouraging the use of const
or let
instead.
Examples
Examples of incorrect code for this rule:
/*eslint no-var: "error"*/
var x = "y";
var CONFIG = {};
Examples of correct code for this rule:
/*eslint no-var: "error"*/
/*eslint-env es6*/
let x = "y";
const CONFIG = {};
When Not To Use It
In addition to non-ES6 environments, existing JavaScript projects that are beginning to introduce ES6 into their
codebase may not want to apply this rule if the cost of migrating from var
to let
is too costly.
Source: http://eslint.org/docs/rules/
There should be no spaces inside this paren. Open
function _removeDOMNodeList( nodes ) {
- Read upRead up
- Exclude checks
Disallow or enforce spaces inside of parentheses (space-in-parens)
Some style guides require or disallow spaces inside of parentheses:
foo( 'bar' );
var x = ( 1 + 2 ) * 3;
foo('bar');
var x = (1 + 2) * 3;
Rule Details
This rule will enforce consistency of spacing directly inside of parentheses, by disallowing or requiring one or more spaces to the right of (
and to the left of )
. In either case, ()
will still be allowed.
Options
There are two options for this rule:
-
"never"
(default) enforces zero spaces inside of parentheses -
"always"
enforces a space inside of parentheses
Depending on your coding conventions, you can choose either option by specifying it in your configuration:
"space-in-parens": ["error", "always"]
"never"
Examples of incorrect code for this rule with the default "never"
option:
/*eslint space-in-parens: ["error", "never"]*/
foo( 'bar');
foo('bar' );
foo( 'bar' );
var foo = ( 1 + 2 ) * 3;
( function () { return 'bar'; }() );
Examples of correct code for this rule with the default "never"
option:
/*eslint space-in-parens: ["error", "never"]*/
foo();
foo('bar');
var foo = (1 + 2) * 3;
(function () { return 'bar'; }());
"always"
Examples of incorrect code for this rule with the "always"
option:
/*eslint space-in-parens: ["error", "always"]*/
foo( 'bar');
foo('bar' );
foo('bar');
var foo = (1 + 2) * 3;
(function () { return 'bar'; }());
Examples of correct code for this rule with the "always"
option:
/*eslint space-in-parens: ["error", "always"]*/
foo();
foo( 'bar' );
var foo = ( 1 + 2 ) * 3;
( function () { return 'bar'; }() );
Exceptions
An object literal may be used as a third array item to specify exceptions, with the key "exceptions"
and an array as the value. These exceptions work in the context of the first option. That is, if "always"
is set to enforce spacing, then any "exception" will disallow spacing. Conversely, if "never"
is set to disallow spacing, then any "exception" will enforce spacing.
The following exceptions are available: ["{}", "[]", "()", "empty"]
.
Examples of incorrect code for this rule with the "never", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["{}"] }]*/
foo({bar: 'baz'});
foo(1, {bar: 'baz'});
Examples of correct code for this rule with the "never", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["{}"] }]*/
foo( {bar: 'baz'} );
foo(1, {bar: 'baz'} );
Examples of incorrect code for this rule with the "always", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}"] }]*/
foo( {bar: 'baz'} );
foo( 1, {bar: 'baz'} );
Examples of correct code for this rule with the "always", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}"] }]*/
foo({bar: 'baz'});
foo( 1, {bar: 'baz'});
Examples of incorrect code for this rule with the "never", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["[]"] }]*/
foo([bar, baz]);
foo([bar, baz], 1);
Examples of correct code for this rule with the "never", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["[]"] }]*/
foo( [bar, baz] );
foo( [bar, baz], 1);
Examples of incorrect code for this rule with the "always", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["[]"] }]*/
foo( [bar, baz] );
foo( [bar, baz], 1 );
Examples of correct code for this rule with the "always", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["[]"] }]*/
foo([bar, baz]);
foo([bar, baz], 1 );
Examples of incorrect code for this rule with the "never", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["()"] }]*/
foo((1 + 2));
foo((1 + 2), 1);
Examples of correct code for this rule with the "never", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["()"] }]*/
foo( (1 + 2) );
foo( (1 + 2), 1);
Examples of incorrect code for this rule with the "always", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["()"] }]*/
foo( ( 1 + 2 ) );
foo( ( 1 + 2 ), 1 );
Examples of correct code for this rule with the "always", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["()"] }]*/
foo(( 1 + 2 ));
foo(( 1 + 2 ), 1 );
The "empty"
exception concerns empty parentheses, and works the same way as the other exceptions, inverting the first option.
Example of incorrect code for this rule with the "never", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["empty"] }]*/
foo();
Example of correct code for this rule with the "never", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["empty"] }]*/
foo( );
Example of incorrect code for this rule with the "always", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["empty"] }]*/
foo( );
Example of correct code for this rule with the "always", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["empty"] }]*/
foo();
You can include multiple entries in the "exceptions"
array.
Examples of incorrect code for this rule with the "always", { "exceptions": ["{}", "[]"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}", "[]"] }]*/
bar( {bar:'baz'} );
baz( 1, [1,2] );
foo( {bar: 'baz'}, [1, 2] );
Examples of correct code for this rule with the "always", { "exceptions": ["{}", "[]"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}", "[]"] }]*/
bar({bar:'baz'});
baz( 1, [1,2]);
foo({bar: 'baz'}, [1, 2]);
When Not To Use It
You can turn this rule off if you are not concerned with the consistency of spacing between parentheses.
Related Rules
- [space-in-brackets](space-in-brackets.md) (deprecated) Source: http://eslint.org/docs/rules/
There should be no spaces inside this paren. Open
function _removeDOMNodeList( nodes ) {
- Read upRead up
- Exclude checks
Disallow or enforce spaces inside of parentheses (space-in-parens)
Some style guides require or disallow spaces inside of parentheses:
foo( 'bar' );
var x = ( 1 + 2 ) * 3;
foo('bar');
var x = (1 + 2) * 3;
Rule Details
This rule will enforce consistency of spacing directly inside of parentheses, by disallowing or requiring one or more spaces to the right of (
and to the left of )
. In either case, ()
will still be allowed.
Options
There are two options for this rule:
-
"never"
(default) enforces zero spaces inside of parentheses -
"always"
enforces a space inside of parentheses
Depending on your coding conventions, you can choose either option by specifying it in your configuration:
"space-in-parens": ["error", "always"]
"never"
Examples of incorrect code for this rule with the default "never"
option:
/*eslint space-in-parens: ["error", "never"]*/
foo( 'bar');
foo('bar' );
foo( 'bar' );
var foo = ( 1 + 2 ) * 3;
( function () { return 'bar'; }() );
Examples of correct code for this rule with the default "never"
option:
/*eslint space-in-parens: ["error", "never"]*/
foo();
foo('bar');
var foo = (1 + 2) * 3;
(function () { return 'bar'; }());
"always"
Examples of incorrect code for this rule with the "always"
option:
/*eslint space-in-parens: ["error", "always"]*/
foo( 'bar');
foo('bar' );
foo('bar');
var foo = (1 + 2) * 3;
(function () { return 'bar'; }());
Examples of correct code for this rule with the "always"
option:
/*eslint space-in-parens: ["error", "always"]*/
foo();
foo( 'bar' );
var foo = ( 1 + 2 ) * 3;
( function () { return 'bar'; }() );
Exceptions
An object literal may be used as a third array item to specify exceptions, with the key "exceptions"
and an array as the value. These exceptions work in the context of the first option. That is, if "always"
is set to enforce spacing, then any "exception" will disallow spacing. Conversely, if "never"
is set to disallow spacing, then any "exception" will enforce spacing.
The following exceptions are available: ["{}", "[]", "()", "empty"]
.
Examples of incorrect code for this rule with the "never", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["{}"] }]*/
foo({bar: 'baz'});
foo(1, {bar: 'baz'});
Examples of correct code for this rule with the "never", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["{}"] }]*/
foo( {bar: 'baz'} );
foo(1, {bar: 'baz'} );
Examples of incorrect code for this rule with the "always", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}"] }]*/
foo( {bar: 'baz'} );
foo( 1, {bar: 'baz'} );
Examples of correct code for this rule with the "always", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}"] }]*/
foo({bar: 'baz'});
foo( 1, {bar: 'baz'});
Examples of incorrect code for this rule with the "never", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["[]"] }]*/
foo([bar, baz]);
foo([bar, baz], 1);
Examples of correct code for this rule with the "never", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["[]"] }]*/
foo( [bar, baz] );
foo( [bar, baz], 1);
Examples of incorrect code for this rule with the "always", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["[]"] }]*/
foo( [bar, baz] );
foo( [bar, baz], 1 );
Examples of correct code for this rule with the "always", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["[]"] }]*/
foo([bar, baz]);
foo([bar, baz], 1 );
Examples of incorrect code for this rule with the "never", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["()"] }]*/
foo((1 + 2));
foo((1 + 2), 1);
Examples of correct code for this rule with the "never", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["()"] }]*/
foo( (1 + 2) );
foo( (1 + 2), 1);
Examples of incorrect code for this rule with the "always", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["()"] }]*/
foo( ( 1 + 2 ) );
foo( ( 1 + 2 ), 1 );
Examples of correct code for this rule with the "always", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["()"] }]*/
foo(( 1 + 2 ));
foo(( 1 + 2 ), 1 );
The "empty"
exception concerns empty parentheses, and works the same way as the other exceptions, inverting the first option.
Example of incorrect code for this rule with the "never", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["empty"] }]*/
foo();
Example of correct code for this rule with the "never", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["empty"] }]*/
foo( );
Example of incorrect code for this rule with the "always", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["empty"] }]*/
foo( );
Example of correct code for this rule with the "always", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["empty"] }]*/
foo();
You can include multiple entries in the "exceptions"
array.
Examples of incorrect code for this rule with the "always", { "exceptions": ["{}", "[]"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}", "[]"] }]*/
bar( {bar:'baz'} );
baz( 1, [1,2] );
foo( {bar: 'baz'}, [1, 2] );
Examples of correct code for this rule with the "always", { "exceptions": ["{}", "[]"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}", "[]"] }]*/
bar({bar:'baz'});
baz( 1, [1,2]);
foo({bar: 'baz'}, [1, 2]);
When Not To Use It
You can turn this rule off if you are not concerned with the consistency of spacing between parentheses.
Related Rules
- [space-in-brackets](space-in-brackets.md) (deprecated) Source: http://eslint.org/docs/rules/
There should be no spaces inside this paren. Open
for ( var i = 0, len = nodes.length; i < len; i++ ) {
- Read upRead up
- Exclude checks
Disallow or enforce spaces inside of parentheses (space-in-parens)
Some style guides require or disallow spaces inside of parentheses:
foo( 'bar' );
var x = ( 1 + 2 ) * 3;
foo('bar');
var x = (1 + 2) * 3;
Rule Details
This rule will enforce consistency of spacing directly inside of parentheses, by disallowing or requiring one or more spaces to the right of (
and to the left of )
. In either case, ()
will still be allowed.
Options
There are two options for this rule:
-
"never"
(default) enforces zero spaces inside of parentheses -
"always"
enforces a space inside of parentheses
Depending on your coding conventions, you can choose either option by specifying it in your configuration:
"space-in-parens": ["error", "always"]
"never"
Examples of incorrect code for this rule with the default "never"
option:
/*eslint space-in-parens: ["error", "never"]*/
foo( 'bar');
foo('bar' );
foo( 'bar' );
var foo = ( 1 + 2 ) * 3;
( function () { return 'bar'; }() );
Examples of correct code for this rule with the default "never"
option:
/*eslint space-in-parens: ["error", "never"]*/
foo();
foo('bar');
var foo = (1 + 2) * 3;
(function () { return 'bar'; }());
"always"
Examples of incorrect code for this rule with the "always"
option:
/*eslint space-in-parens: ["error", "always"]*/
foo( 'bar');
foo('bar' );
foo('bar');
var foo = (1 + 2) * 3;
(function () { return 'bar'; }());
Examples of correct code for this rule with the "always"
option:
/*eslint space-in-parens: ["error", "always"]*/
foo();
foo( 'bar' );
var foo = ( 1 + 2 ) * 3;
( function () { return 'bar'; }() );
Exceptions
An object literal may be used as a third array item to specify exceptions, with the key "exceptions"
and an array as the value. These exceptions work in the context of the first option. That is, if "always"
is set to enforce spacing, then any "exception" will disallow spacing. Conversely, if "never"
is set to disallow spacing, then any "exception" will enforce spacing.
The following exceptions are available: ["{}", "[]", "()", "empty"]
.
Examples of incorrect code for this rule with the "never", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["{}"] }]*/
foo({bar: 'baz'});
foo(1, {bar: 'baz'});
Examples of correct code for this rule with the "never", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["{}"] }]*/
foo( {bar: 'baz'} );
foo(1, {bar: 'baz'} );
Examples of incorrect code for this rule with the "always", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}"] }]*/
foo( {bar: 'baz'} );
foo( 1, {bar: 'baz'} );
Examples of correct code for this rule with the "always", { "exceptions": ["{}"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}"] }]*/
foo({bar: 'baz'});
foo( 1, {bar: 'baz'});
Examples of incorrect code for this rule with the "never", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["[]"] }]*/
foo([bar, baz]);
foo([bar, baz], 1);
Examples of correct code for this rule with the "never", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["[]"] }]*/
foo( [bar, baz] );
foo( [bar, baz], 1);
Examples of incorrect code for this rule with the "always", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["[]"] }]*/
foo( [bar, baz] );
foo( [bar, baz], 1 );
Examples of correct code for this rule with the "always", { "exceptions": ["[]"] }
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["[]"] }]*/
foo([bar, baz]);
foo([bar, baz], 1 );
Examples of incorrect code for this rule with the "never", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["()"] }]*/
foo((1 + 2));
foo((1 + 2), 1);
Examples of correct code for this rule with the "never", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["()"] }]*/
foo( (1 + 2) );
foo( (1 + 2), 1);
Examples of incorrect code for this rule with the "always", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["()"] }]*/
foo( ( 1 + 2 ) );
foo( ( 1 + 2 ), 1 );
Examples of correct code for this rule with the "always", { "exceptions": ["()"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["()"] }]*/
foo(( 1 + 2 ));
foo(( 1 + 2 ), 1 );
The "empty"
exception concerns empty parentheses, and works the same way as the other exceptions, inverting the first option.
Example of incorrect code for this rule with the "never", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["empty"] }]*/
foo();
Example of correct code for this rule with the "never", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "never", { "exceptions": ["empty"] }]*/
foo( );
Example of incorrect code for this rule with the "always", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["empty"] }]*/
foo( );
Example of correct code for this rule with the "always", { "exceptions": ["empty"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["empty"] }]*/
foo();
You can include multiple entries in the "exceptions"
array.
Examples of incorrect code for this rule with the "always", { "exceptions": ["{}", "[]"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}", "[]"] }]*/
bar( {bar:'baz'} );
baz( 1, [1,2] );
foo( {bar: 'baz'}, [1, 2] );
Examples of correct code for this rule with the "always", { "exceptions": ["{}", "[]"] }]
option:
/*eslint space-in-parens: ["error", "always", { "exceptions": ["{}", "[]"] }]*/
bar({bar:'baz'});
baz( 1, [1,2]);
foo({bar: 'baz'}, [1, 2]);
When Not To Use It
You can turn this rule off if you are not concerned with the consistency of spacing between parentheses.
Related Rules
- [space-in-brackets](space-in-brackets.md) (deprecated) Source: http://eslint.org/docs/rules/
Unexpected var, use let or const instead. Open
for ( var i = 0, len = nodes.length; i < len; i++ ) {
- Read upRead up
- Exclude checks
require let
or const
instead of var
(no-var)
ECMAScript 6 allows programmers to create variables with block scope instead of function scope using the let
and const
keywords. Block scope is common in many other programming languages and helps programmers avoid mistakes
such as:
var count = people.length;
var enoughFood = count > sandwiches.length;
if (enoughFood) {
var count = sandwiches.length; // accidentally overriding the count variable
console.log("We have " + count + " sandwiches for everyone. Plenty for all!");
}
// our count variable is no longer accurate
console.log("We have " + count + " people and " + sandwiches.length + " sandwiches!");
Rule Details
This rule is aimed at discouraging the use of var
and encouraging the use of const
or let
instead.
Examples
Examples of incorrect code for this rule:
/*eslint no-var: "error"*/
var x = "y";
var CONFIG = {};
Examples of correct code for this rule:
/*eslint no-var: "error"*/
/*eslint-env es6*/
let x = "y";
const CONFIG = {};
When Not To Use It
In addition to non-ES6 environments, existing JavaScript projects that are beginning to introduce ES6 into their
codebase may not want to apply this rule if the cost of migrating from var
to let
is too costly.
Source: http://eslint.org/docs/rules/
Unexpected var, use let or const instead. Open
var lngElm = document.getElementById('detail-map-canvas-lng');
- Read upRead up
- Exclude checks
require let
or const
instead of var
(no-var)
ECMAScript 6 allows programmers to create variables with block scope instead of function scope using the let
and const
keywords. Block scope is common in many other programming languages and helps programmers avoid mistakes
such as:
var count = people.length;
var enoughFood = count > sandwiches.length;
if (enoughFood) {
var count = sandwiches.length; // accidentally overriding the count variable
console.log("We have " + count + " sandwiches for everyone. Plenty for all!");
}
// our count variable is no longer accurate
console.log("We have " + count + " people and " + sandwiches.length + " sandwiches!");
Rule Details
This rule is aimed at discouraging the use of var
and encouraging the use of const
or let
instead.
Examples
Examples of incorrect code for this rule:
/*eslint no-var: "error"*/
var x = "y";
var CONFIG = {};
Examples of correct code for this rule:
/*eslint no-var: "error"*/
/*eslint-env es6*/
let x = "y";
const CONFIG = {};
When Not To Use It
In addition to non-ES6 environments, existing JavaScript projects that are beginning to introduce ES6 into their
codebase may not want to apply this rule if the cost of migrating from var
to let
is too costly.
Source: http://eslint.org/docs/rules/
'google' is not defined. Open
var locationMarker = new google.maps.Marker(locationOptions);
- Read upRead up
- Exclude checks
Disallow Undeclared Variables (no-undef)
This rule can help you locate potential ReferenceErrors resulting from misspellings of variable and parameter names, or accidental implicit globals (for example, from forgetting the var
keyword in a for
loop initializer).
Rule Details
Any reference to an undeclared variable causes a warning, unless the variable is explicitly mentioned in a /*global ...*/
comment.
Examples of incorrect code for this rule:
/*eslint no-undef: "error"*/
var a = someFunction();
b = 10;
Examples of correct code for this rule with global
declaration:
/*global someFunction b:true*/
/*eslint no-undef: "error"*/
var a = someFunction();
b = 10;
The b:true
syntax in /*global */
indicates that assignment to b
is correct.
Examples of incorrect code for this rule with global
declaration:
/*global b*/
/*eslint no-undef: "error"*/
b = 10;
By default, variables declared in /*global */
are read-only, therefore assignment is incorrect.
Options
-
typeof
set to true will warn for variables used inside typeof check (Default false).
typeof
Examples of correct code for the default { "typeof": false }
option:
/*eslint no-undef: "error"*/
if (typeof UndefinedIdentifier === "undefined") {
// do something ...
}
You can use this option if you want to prevent typeof
check on a variable which has not been declared.
Examples of incorrect code for the { "typeof": true }
option:
/*eslint no-undef: ["error", { "typeof": true }] */
if(typeof a === "string"){}
Examples of correct code for the { "typeof": true }
option with global
declaration:
/*global a*/
/*eslint no-undef: ["error", { "typeof": true }] */
if(typeof a === "string"){}
Environments
For convenience, ESLint provides shortcuts that pre-define global variables exposed by popular libraries and runtime environments. This rule supports these environments, as listed in Specifying Environments. A few examples are given below.
browser
Examples of correct code for this rule with browser
environment:
/*eslint no-undef: "error"*/
/*eslint-env browser*/
setTimeout(function() {
alert("Hello");
});
node
Examples of correct code for this rule with node
environment:
/*eslint no-undef: "error"*/
/*eslint-env node*/
var fs = require("fs");
module.exports = function() {
console.log(fs);
};
When Not To Use It
If explicit declaration of global variables is not to your taste.
Compatibility
This rule provides compatibility with treatment of global variables in JSHint and JSLint. Source: http://eslint.org/docs/rules/
Unexpected dangling '_' in '_instance'. Open
var _instance = this;
- Read upRead up
- Exclude checks
disallow dangling underscores in identifiers (no-underscore-dangle)
As far as naming conventions for identifiers go, dangling underscores may be the most polarizing in JavaScript. Dangling underscores are underscores at either the beginning or end of an identifier, such as:
var _foo;
There is actually a long history of using dangling underscores to indicate "private" members of objects in JavaScript (though JavaScript doesn't have truly private members, this convention served as a warning). This began with SpiderMonkey adding nonstandard methods such as __defineGetter__()
. The intent with the underscores was to make it obvious that this method was special in some way. Since that time, using a single underscore prefix has become popular as a way to indicate "private" members of objects.
Whether or not you choose to allow dangling underscores in identifiers is purely a convention and has no effect on performance, readability, or complexity. It's purely a preference.
Rule Details
This rule disallows dangling underscores in identifiers.
Examples of incorrect code for this rule:
/*eslint no-underscore-dangle: "error"*/
var foo_;
var __proto__ = {};
foo._bar();
Examples of correct code for this rule:
/*eslint no-underscore-dangle: "error"*/
var _ = require('underscore');
var obj = _.contains(items, item);
obj.__proto__ = {};
var file = __filename;
Options
This rule has an object option:
-
"allow"
allows specified identifiers to have dangling underscores -
"allowAfterThis": false
(default) disallows dangling underscores in members of thethis
object -
"allowAfterSuper": false
(default) disallows dangling underscores in members of thesuper
object
allow
Examples of additional correct code for this rule with the { "allow": ["foo_", "_bar"] }
option:
/*eslint no-underscore-dangle: ["error", { "allow": ["foo_", "_bar"] }]*/
var foo_;
foo._bar();
allowAfterThis
Examples of correct code for this rule with the { "allowAfterThis": true }
option:
/*eslint no-underscore-dangle: ["error", { "allowAfterThis": true }]*/
var a = this.foo_;
this._bar();
allowAfterSuper
Examples of correct code for this rule with the { "allowAfterSuper": true }
option:
/*eslint no-underscore-dangle: ["error", { "allowAfterSuper": true }]*/
var a = super.foo_;
super._bar();
When Not To Use It
If you want to allow dangling underscores in identifiers, then you can safely turn this rule off. Source: http://eslint.org/docs/rules/
Unexpected dangling '_' in '_link'. Open
var _link;
- Read upRead up
- Exclude checks
disallow dangling underscores in identifiers (no-underscore-dangle)
As far as naming conventions for identifiers go, dangling underscores may be the most polarizing in JavaScript. Dangling underscores are underscores at either the beginning or end of an identifier, such as:
var _foo;
There is actually a long history of using dangling underscores to indicate "private" members of objects in JavaScript (though JavaScript doesn't have truly private members, this convention served as a warning). This began with SpiderMonkey adding nonstandard methods such as __defineGetter__()
. The intent with the underscores was to make it obvious that this method was special in some way. Since that time, using a single underscore prefix has become popular as a way to indicate "private" members of objects.
Whether or not you choose to allow dangling underscores in identifiers is purely a convention and has no effect on performance, readability, or complexity. It's purely a preference.
Rule Details
This rule disallows dangling underscores in identifiers.
Examples of incorrect code for this rule:
/*eslint no-underscore-dangle: "error"*/
var foo_;
var __proto__ = {};
foo._bar();
Examples of correct code for this rule:
/*eslint no-underscore-dangle: "error"*/
var _ = require('underscore');
var obj = _.contains(items, item);
obj.__proto__ = {};
var file = __filename;
Options
This rule has an object option:
-
"allow"
allows specified identifiers to have dangling underscores -
"allowAfterThis": false
(default) disallows dangling underscores in members of thethis
object -
"allowAfterSuper": false
(default) disallows dangling underscores in members of thesuper
object
allow
Examples of additional correct code for this rule with the { "allow": ["foo_", "_bar"] }
option:
/*eslint no-underscore-dangle: ["error", { "allow": ["foo_", "_bar"] }]*/
var foo_;
foo._bar();
allowAfterThis
Examples of correct code for this rule with the { "allowAfterThis": true }
option:
/*eslint no-underscore-dangle: ["error", { "allowAfterThis": true }]*/
var a = this.foo_;
this._bar();
allowAfterSuper
Examples of correct code for this rule with the { "allowAfterSuper": true }
option:
/*eslint no-underscore-dangle: ["error", { "allowAfterSuper": true }]*/
var a = super.foo_;
super._bar();
When Not To Use It
If you want to allow dangling underscores in identifiers, then you can safely turn this rule off. Source: http://eslint.org/docs/rules/
Unexpected var, use let or const instead. Open
var _popup;
- Read upRead up
- Exclude checks
require let
or const
instead of var
(no-var)
ECMAScript 6 allows programmers to create variables with block scope instead of function scope using the let
and const
keywords. Block scope is common in many other programming languages and helps programmers avoid mistakes
such as:
var count = people.length;
var enoughFood = count > sandwiches.length;
if (enoughFood) {
var count = sandwiches.length; // accidentally overriding the count variable
console.log("We have " + count + " sandwiches for everyone. Plenty for all!");
}
// our count variable is no longer accurate
console.log("We have " + count + " people and " + sandwiches.length + " sandwiches!");
Rule Details
This rule is aimed at discouraging the use of var
and encouraging the use of const
or let
instead.
Examples
Examples of incorrect code for this rule:
/*eslint no-var: "error"*/
var x = "y";
var CONFIG = {};
Examples of correct code for this rule:
/*eslint no-var: "error"*/
/*eslint-env es6*/
let x = "y";
const CONFIG = {};
When Not To Use It
In addition to non-ES6 environments, existing JavaScript projects that are beginning to introduce ES6 into their
codebase may not want to apply this rule if the cost of migrating from var
to let
is too costly.
Source: http://eslint.org/docs/rules/
Unexpected var, use let or const instead. Open
var _container;
- Read upRead up
- Exclude checks
require let
or const
instead of var
(no-var)
ECMAScript 6 allows programmers to create variables with block scope instead of function scope using the let
and const
keywords. Block scope is common in many other programming languages and helps programmers avoid mistakes
such as:
var count = people.length;
var enoughFood = count > sandwiches.length;
if (enoughFood) {
var count = sandwiches.length; // accidentally overriding the count variable
console.log("We have " + count + " sandwiches for everyone. Plenty for all!");
}
// our count variable is no longer accurate
console.log("We have " + count + " people and " + sandwiches.length + " sandwiches!");
Rule Details
This rule is aimed at discouraging the use of var
and encouraging the use of const
or let
instead.
Examples
Examples of incorrect code for this rule:
/*eslint no-var: "error"*/
var x = "y";
var CONFIG = {};
Examples of correct code for this rule:
/*eslint no-var: "error"*/
/*eslint-env es6*/
let x = "y";
const CONFIG = {};
When Not To Use It
In addition to non-ES6 environments, existing JavaScript projects that are beginning to introduce ES6 into their
codebase may not want to apply this rule if the cost of migrating from var
to let
is too costly.
Source: http://eslint.org/docs/rules/
All 'var' declarations must be at the top of the function scope. Open
var padding = util.getStyle(_popup.children[1], 'padding');
- Read upRead up
- Exclude checks
Require Variable Declarations to be at the top of their scope (vars-on-top)
The vars-on-top
rule generates warnings when variable declarations are not used serially at the top of a function scope or the top of a program.
By default variable declarations are always moved (“hoisted”) invisibly to the top of their containing scope by the JavaScript interpreter.
This rule forces the programmer to represent that behaviour by manually moving the variable declaration to the top of its containing scope.
Rule Details
This rule aims to keep all variable declarations in the leading series of statements. Allowing multiple declarations helps promote maintainability and is thus allowed.
Examples of incorrect code for this rule:
/*eslint vars-on-top: "error"*/
// Variable declarations in a block:
function doSomething() {
var first;
if (true) {
first = true;
}
var second;
}
// Variable declaration in for initializer:
function doSomething() {
for (var i=0; i<10; i++) {}
}
/*eslint vars-on-top: "error"*/
// Variables after other statements:
f();
var a;
Examples of correct code for this rule:
/*eslint vars-on-top: "error"*/
function doSomething() {
var first;
var second; //multiple declarations are allowed at the top
if (true) {
first = true;
}
}
function doSomething() {
var i;
for (i=0; i<10; i++) {}
}
/*eslint vars-on-top: "error"*/
var a;
f();
/*eslint vars-on-top: "error"*/
// Directives may precede variable declarations.
"use strict";
var a;
f();
// Comments can describe variables.
function doSomething() {
// this is the first var.
var first;
// this is the second var.
var second
}
Further Reading
'_isShowing' was used before it was defined. Open
if (_isShowing()) hide();
- Read upRead up
- Exclude checks
Disallow Early Use (no-use-before-define)
In JavaScript, prior to ES6, variable and function declarations are hoisted to the top of a scope, so it's possible to use identifiers before their formal declarations in code. This can be confusing and some believe it is best to always declare variables and functions before using them.
In ES6, block-level bindings (let
and const
) introduce a "temporal dead zone" where a ReferenceError
will be thrown with any attempt to access the variable before its declaration.
Rule Details
This rule will warn when it encounters a reference to an identifier that has not yet been declared.
Examples of incorrect code for this rule:
/*eslint no-use-before-define: "error"*/
/*eslint-env es6*/
alert(a);
var a = 10;
f();
function f() {}
function g() {
return b;
}
var b = 1;
// With blockBindings: true
{
alert(c);
let c = 1;
}
Examples of correct code for this rule:
/*eslint no-use-before-define: "error"*/
/*eslint-env es6*/
var a;
a = 10;
alert(a);
function f() {}
f(1);
var b = 1;
function g() {
return b;
}
// With blockBindings: true
{
let C;
c++;
}
Options
{
"no-use-before-define": ["error", { "functions": true, "classes": true }]
}
-
functions
(boolean
) - The flag which shows whether or not this rule checks function declarations. If this istrue
, this rule warns every reference to a function before the function declaration. Otherwise, ignores those references. Function declarations are hoisted, so it's safe. Default istrue
. -
classes
(boolean
) - The flag which shows whether or not this rule checks class declarations of upper scopes. If this istrue
, this rule warns every reference to a class before the class declaration. Otherwise, ignores those references if the declaration is in upper function scopes. Class declarations are not hoisted, so it might be danger. Default istrue
. -
variables
(boolean
) - This flag determines whether or not the rule checks variable declarations in upper scopes. If this istrue
, the rule warns every reference to a variable before the variable declaration. Otherwise, the rule ignores a reference if the declaration is in an upper scope, while still reporting the reference if it's in the same scope as the declaration. Default istrue
.
This rule accepts "nofunc"
string as an option.
"nofunc"
is the same as { "functions": false, "classes": true }
.
functions
Examples of correct code for the { "functions": false }
option:
/*eslint no-use-before-define: ["error", { "functions": false }]*/
f();
function f() {}
classes
Examples of incorrect code for the { "classes": false }
option:
/*eslint no-use-before-define: ["error", { "classes": false }]*/
/*eslint-env es6*/
new A();
class A {
}
Examples of correct code for the { "classes": false }
option:
/*eslint no-use-before-define: ["error", { "classes": false }]*/
/*eslint-env es6*/
function foo() {
return new A();
}
class A {
}
variables
Examples of incorrect code for the { "variables": false }
option:
/*eslint no-use-before-define: ["error", { "variables": false }]*/
console.log(foo);
var foo = 1;
Examples of correct code for the { "variables": false }
option:
/*eslint no-use-before-define: ["error", { "variables": false }]*/
function baz() {
console.log(foo);
}
var foo = 1;
Source: http://eslint.org/docs/rules/
Missing space before value for key 'target'. Open
_instance.dispatchEvent(_events.SHOW, {target:_instance});
- Read upRead up
- Exclude checks
enforce consistent spacing between keys and values in object literal properties (key-spacing)
This rule enforces spacing around the colon in object literal properties. It can verify each property individually, or it can ensure horizontal alignment of adjacent properties in an object literal.
Rule Details
This rule enforces consistent spacing between keys and values in object literal properties. In the case of long lines, it is acceptable to add a new line wherever whitespace is allowed.
Options
This rule has an object option:
-
"beforeColon": false
(default) disallows spaces between the key and the colon in object literals. -
"beforeColon": true
requires at least one space between the key and the colon in object literals. -
"afterColon": true
(default) requires at least one space between the colon and the value in object literals. -
"afterColon": false
disallows spaces between the colon and the value in object literals. -
"mode": "strict"
(default) enforces exactly one space before or after colons in object literals. -
"mode": "minimum"
enforces one or more spaces before or after colons in object literals. -
"align": "value"
enforces horizontal alignment of values in object literals. -
"align": "colon"
enforces horizontal alignment of both colons and values in object literals. -
"align"
with an object value allows for fine-grained spacing when values are being aligned in object literals. -
"singleLine"
specifies a spacing style for single-line object literals. -
"multiLine"
specifies a spacing style for multi-line object literals.
Please note that you can either use the top-level options or the grouped options (singleLine
and multiLine
) but not both.
beforeColon
Examples of incorrect code for this rule with the default { "beforeColon": false }
option:
/*eslint key-spacing: ["error", { "beforeColon": false }]*/
var obj = { "foo" : 42 };
Examples of correct code for this rule with the default { "beforeColon": false }
option:
/*eslint key-spacing: ["error", { "beforeColon": false }]*/
var obj = { "foo": 42 };
Examples of incorrect code for this rule with the { "beforeColon": true }
option:
/*eslint key-spacing: ["error", { "beforeColon": true }]*/
var obj = { "foo": 42 };
Examples of correct code for this rule with the { "beforeColon": true }
option:
/*eslint key-spacing: ["error", { "beforeColon": true }]*/
var obj = { "foo" : 42 };
afterColon
Examples of incorrect code for this rule with the default { "afterColon": true }
option:
/*eslint key-spacing: ["error", { "afterColon": true }]*/
var obj = { "foo":42 };
Examples of correct code for this rule with the default { "afterColon": true }
option:
/*eslint key-spacing: ["error", { "afterColon": true }]*/
var obj = { "foo": 42 };
Examples of incorrect code for this rule with the { "afterColon": false }
option:
/*eslint key-spacing: ["error", { "afterColon": false }]*/
var obj = { "foo": 42 };
Examples of correct code for this rule with the { "afterColon": false }
option:
/*eslint key-spacing: ["error", { "afterColon": false }]*/
var obj = { "foo":42 };
mode
Examples of incorrect code for this rule with the default { "mode": "strict" }
option:
/*eslint key-spacing: ["error", { "mode": "strict" }]*/
call({
foobar: 42,
bat: 2 * 2
});
Examples of correct code for this rule with the default { "mode": "strict" }
option:
/*eslint key-spacing: ["error", { "mode": "strict" }]*/
call({
foobar: 42,
bat: 2 * 2
});
Examples of correct code for this rule with the { "mode": "minimum" }
option:
/*eslint key-spacing: ["error", { "mode": "minimum" }]*/
call({
foobar: 42,
bat: 2 * 2
});
align
Examples of incorrect code for this rule with the { "align": "value" }
option:
/*eslint key-spacing: ["error", { "align": "value" }]*/
var obj = {
a: value,
bcde: 42,
fg : foo()
};
Examples of correct code for this rule with the { "align": "value" }
option:
/*eslint key-spacing: ["error", { "align": "value" }]*/
var obj = {
a: value,
bcde: 42,
fg: foo(),
h: function() {
return this.a;
},
ijkl: 'Non-consecutive lines form a new group'
};
var obj = { a: "foo", longPropertyName: "bar" };
Examples of incorrect code for this rule with the { "align": "colon" }
option:
/*eslint key-spacing: ["error", { "align": "colon" }]*/
call({
foobar: 42,
bat: 2 * 2
});
Examples of correct code for this rule with the { "align": "colon" }
option:
/*eslint key-spacing: ["error", { "align": "colon" }]*/
call({
foobar: 42,
bat : 2 * 2
});
align
The align
option can take additional configuration through the beforeColon
, afterColon
, mode
, and on
options.
If align
is defined as an object, but not all of the parameters are provided, undefined parameters will default to the following:
// Defaults
align: {
"beforeColon": false,
"afterColon": true,
"on": "colon",
"mode": "strict"
}
Examples of correct code for this rule with sample { "align": { } }
options:
/*eslint key-spacing: ["error", {
"align": {
"beforeColon": true,
"afterColon": true,
"on": "colon"
}
}]*/
var obj = {
"one" : 1,
"seven" : 7
}
/*eslint key-spacing: ["error", {
"align": {
"beforeColon": false,
"afterColon": false,
"on": "value"
}
}]*/
var obj = {
"one": 1,
"seven":7
}
align and multiLine
The multiLine
and align
options can differ, which allows for fine-tuned control over the key-spacing
of your files. align
will not inherit from multiLine
if align
is configured as an object.
multiLine
is used any time an object literal spans multiple lines. The align
configuration is used when there is a group of properties in the same object. For example:
var myObj = {
key1: 1, // uses multiLine
key2: 2, // uses align (when defined)
key3: 3, // uses align (when defined)
key4: 4 // uses multiLine
}
Examples of incorrect code for this rule with sample { "align": { }, "multiLine": { } }
options:
/*eslint key-spacing: ["error", {
"multiLine": {
"beforeColon": false,
"afterColon":true
},
"align": {
"beforeColon": true,
"afterColon": true,
"on": "colon"
}
}]*/
var obj = {
"myObjectFunction": function() {
// Do something
},
"one" : 1,
"seven" : 7
}
Examples of correct code for this rule with sample { "align": { }, "multiLine": { } }
options:
/*eslint key-spacing: ["error", {
"multiLine": {
"beforeColon": false,
"afterColon": true
},
"align": {
"beforeColon": true,
"afterColon": true,
"on": "colon"
}
}]*/
var obj = {
"myObjectFunction": function() {
// Do something
//
}, // These are two separate groups, so no alignment between `myObjectFuction` and `one`
"one" : 1,
"seven" : 7 // `one` and `seven` are in their own group, and therefore aligned
}
singleLine and multiLine
Examples of correct code for this rule with sample { "singleLine": { }, "multiLine": { } }
options:
/*eslint "key-spacing": [2, {
"singleLine": {
"beforeColon": false,
"afterColon": true
},
"multiLine": {
"beforeColon": true,
"afterColon": true,
"align": "colon"
}
}]*/
var obj = { one: 1, "two": 2, three: 3 };
var obj2 = {
"two" : 2,
three : 3
};
When Not To Use It
If you have another convention for property spacing that might not be consistent with the available options, or if you want to permit multiple styles concurrently you can safely disable this rule. Source: http://eslint.org/docs/rules/
A space is required before '}'. Open
_instance.dispatchEvent(_events.SHOW, {target:_instance});
- Read upRead up
- Exclude checks
enforce consistent spacing inside braces (object-curly-spacing)
While formatting preferences are very personal, a number of style guides require or disallow spaces between curly braces in the following situations:
// simple object literals
var obj = { foo: "bar" };
// nested object literals
var obj = { foo: { zoo: "bar" } };
// destructuring assignment (EcmaScript 6)
var { x, y } = y;
// import/export declarations (EcmaScript 6)
import { foo } from "bar";
export { foo };
Rule Details
This rule enforce consistent spacing inside braces of object literals, destructuring assignments, and import/export specifiers.
Options
This rule has two options, a string option and an object option.
String option:
-
"never"
(default) disallows spacing inside of braces -
"always"
requires spacing inside of braces (except{}
)
Object option:
-
"arraysInObjects": true
requires spacing inside of braces of objects beginning and/or ending with an array element (applies when the first option is set tonever
) -
"arraysInObjects": false
disallows spacing inside of braces of objects beginning and/or ending with an array element (applies when the first option is set toalways
) -
"objectsInObjects": true
requires spacing inside of braces of objects beginning and/or ending with an object element (applies when the first option is set tonever
) -
"objectsInObjects": false
disallows spacing inside of braces of objects beginning and/or ending with an object element (applies when the first option is set toalways
)
never
Examples of incorrect code for this rule with the default "never"
option:
/*eslint object-curly-spacing: ["error", "never"]*/
var obj = { 'foo': 'bar' };
var obj = {'foo': 'bar' };
var obj = { baz: {'foo': 'qux'}, bar};
var obj = {baz: { 'foo': 'qux'}, bar};
var {x } = y;
import { foo } from 'bar';
Examples of correct code for this rule with the default "never"
option:
/*eslint object-curly-spacing: ["error", "never"]*/
var obj = {'foo': 'bar'};
var obj = {'foo': {'bar': 'baz'}, 'qux': 'quxx'};
var obj = {
'foo': 'bar'
};
var obj = {'foo': 'bar'
};
var obj = {
'foo':'bar'};
var obj = {};
var {x} = y;
import {foo} from 'bar';
always
Examples of incorrect code for this rule with the "always"
option:
/*eslint object-curly-spacing: ["error", "always"]*/
var obj = {'foo': 'bar'};
var obj = {'foo': 'bar' };
var obj = { baz: {'foo': 'qux'}, bar};
var obj = {baz: { 'foo': 'qux' }, bar};
var obj = {'foo': 'bar'
};
var obj = {
'foo':'bar'};
var {x} = y;
import {foo } from 'bar';
Examples of correct code for this rule with the "always"
option:
/*eslint object-curly-spacing: ["error", "always"]*/
var obj = {};
var obj = { 'foo': 'bar' };
var obj = { 'foo': { 'bar': 'baz' }, 'qux': 'quxx' };
var obj = {
'foo': 'bar'
};
var { x } = y;
import { foo } from 'bar';
arraysInObjects
Examples of additional correct code for this rule with the "never", { "arraysInObjects": true }
options:
/*eslint object-curly-spacing: ["error", "never", { "arraysInObjects": true }]*/
var obj = {"foo": [ 1, 2 ] };
var obj = {"foo": [ "baz", "bar" ] };
Examples of additional correct code for this rule with the "always", { "arraysInObjects": false }
options:
/*eslint object-curly-spacing: ["error", "always", { "arraysInObjects": false }]*/
var obj = { "foo": [ 1, 2 ]};
var obj = { "foo": [ "baz", "bar" ]};
objectsInObjects
Examples of additional correct code for this rule with the "never", { "objectsInObjects": true }
options:
/*eslint object-curly-spacing: ["error", "never", { "objectsInObjects": true }]*/
var obj = {"foo": {"baz": 1, "bar": 2} };
Examples of additional correct code for this rule with the "always", { "objectsInObjects": false }
options:
/*eslint object-curly-spacing: ["error", "always", { "objectsInObjects": false }]*/
var obj = { "foo": { "baz": 1, "bar": 2 }};
When Not To Use It
You can turn this rule off if you are not concerned with the consistency of spacing between curly braces.
Related Rules
- [comma-spacing](comma-spacing.md)
- [space-in-parens](space-in-parens.md) Source: http://eslint.org/docs/rules/
Unexpected dangling '_' in '_updatePopupContentWidth'. Open
function _updatePopupContentWidth() {
- Read upRead up
- Exclude checks
disallow dangling underscores in identifiers (no-underscore-dangle)
As far as naming conventions for identifiers go, dangling underscores may be the most polarizing in JavaScript. Dangling underscores are underscores at either the beginning or end of an identifier, such as:
var _foo;
There is actually a long history of using dangling underscores to indicate "private" members of objects in JavaScript (though JavaScript doesn't have truly private members, this convention served as a warning). This began with SpiderMonkey adding nonstandard methods such as __defineGetter__()
. The intent with the underscores was to make it obvious that this method was special in some way. Since that time, using a single underscore prefix has become popular as a way to indicate "private" members of objects.
Whether or not you choose to allow dangling underscores in identifiers is purely a convention and has no effect on performance, readability, or complexity. It's purely a preference.
Rule Details
This rule disallows dangling underscores in identifiers.
Examples of incorrect code for this rule:
/*eslint no-underscore-dangle: "error"*/
var foo_;
var __proto__ = {};
foo._bar();
Examples of correct code for this rule:
/*eslint no-underscore-dangle: "error"*/
var _ = require('underscore');
var obj = _.contains(items, item);
obj.__proto__ = {};
var file = __filename;
Options
This rule has an object option:
-
"allow"
allows specified identifiers to have dangling underscores -
"allowAfterThis": false
(default) disallows dangling underscores in members of thethis
object -
"allowAfterSuper": false
(default) disallows dangling underscores in members of thesuper
object
allow
Examples of additional correct code for this rule with the { "allow": ["foo_", "_bar"] }
option:
/*eslint no-underscore-dangle: ["error", { "allow": ["foo_", "_bar"] }]*/
var foo_;
foo._bar();
allowAfterThis
Examples of correct code for this rule with the { "allowAfterThis": true }
option:
/*eslint no-underscore-dangle: ["error", { "allowAfterThis": true }]*/
var a = this.foo_;
this._bar();
allowAfterSuper
Examples of correct code for this rule with the { "allowAfterSuper": true }
option:
/*eslint no-underscore-dangle: ["error", { "allowAfterSuper": true }]*/
var a = super.foo_;
super._bar();
When Not To Use It
If you want to allow dangling underscores in identifiers, then you can safely turn this rule off. Source: http://eslint.org/docs/rules/