Function add_flash
has 52 lines of code (exceeds 25 allowed). Consider refactoring. Open
window.add_flash = function(msg, level, options) {
level = level || 'success';
options = options || {};
var cls = { alert: '', icon: '' };
- Create a ticketCreate a ticket
Line 39 exceeds the maximum line length of 150. Open
var alertDiv = $('<div class="' + cls.alert + '"><button class="close" data-dismiss="alert"><span class="pficon pficon-close"></span></button></div>');
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
enforce a maximum line length (max-len)
Very long lines of code in any language can be difficult to read. In order to aid in readability and maintainability many coders have developed a convention to limit lines of code to X number of characters (traditionally 80 characters).
var foo = { "bar": "This is a bar.", "baz": { "qux": "This is a qux" }, "difficult": "to read" }; // very long
Rule Details
This rule enforces a maximum line length to increase code readability and maintainability. The length of a line is defined as the number of Unicode characters in the line.
Options
This rule has a number or object option:
-
"code"
(default80
) enforces a maximum line length -
"tabWidth"
(default4
) specifies the character width for tab characters -
"comments"
enforces a maximum line length for comments; defaults to value ofcode
-
"ignorePattern"
ignores lines matching a regular expression; can only match a single line and need to be double escaped when written in YAML or JSON -
"ignoreComments": true
ignores all trailing comments and comments on their own line -
"ignoreTrailingComments": true
ignores only trailing comments -
"ignoreUrls": true
ignores lines that contain a URL -
"ignoreStrings": true
ignores lines that contain a double-quoted or single-quoted string -
"ignoreTemplateLiterals": true
ignores lines that contain a template literal -
"ignoreRegExpLiterals": true
ignores lines that contain a RegExp literal
code
Examples of incorrect code for this rule with the default { "code": 80 }
option:
/*eslint max-len: ["error", { "code": 80 }]*/
var foo = { "bar": "This is a bar.", "baz": { "qux": "This is a qux" }, "difficult": "to read" };
Examples of correct code for this rule with the default { "code": 80 }
option:
/*eslint max-len: ["error", { "code": 80 }]*/
var foo = {
"bar": "This is a bar.",
"baz": { "qux": "This is a qux" },
"easier": "to read"
};
tabWidth
Examples of incorrect code for this rule with the default { "tabWidth": 4 }
option:
/*eslint max-len: ["error", { "code": 80, "tabWidth": 4 }]*/
\t \t var foo = { "bar": "This is a bar.", "baz": { "qux": "This is a qux" } };
Examples of correct code for this rule with the default { "tabWidth": 4 }
option:
/*eslint max-len: ["error", { "code": 80, "tabWidth": 4 }]*/
\t \t var foo = {
\t \t \t \t "bar": "This is a bar.",
\t \t \t \t "baz": { "qux": "This is a qux" }
\t \t };
comments
Examples of incorrect code for this rule with the { "comments": 65 }
option:
/*eslint max-len: ["error", { "comments": 65 }]*/
/**
* This is a comment that violates the maximum line length we have specified
**/
ignoreComments
Examples of correct code for this rule with the { "ignoreComments": true }
option:
/*eslint max-len: ["error", { "ignoreComments": true }]*/
/**
* This is a really really really really really really really really really long comment
**/
ignoreTrailingComments
Examples of correct code for this rule with the { "ignoreTrailingComments": true }
option:
/*eslint max-len: ["error", { "ignoreTrailingComments": true }]*/
var foo = 'bar'; // This is a really really really really really really really long comment
ignoreUrls
Examples of correct code for this rule with the { "ignoreUrls": true }
option:
/*eslint max-len: ["error", { "ignoreUrls": true }]*/
var url = 'https://www.example.com/really/really/really/really/really/really/really/long';
ignoreStrings
Examples of correct code for this rule with the { "ignoreStrings": true }
option:
/*eslint max-len: ["error", { "ignoreStrings": true }]*/
var longString = 'this is a really really really really really long string!';
ignoreTemplateLiterals
Examples of correct code for this rule with the { "ignoreTemplateLiterals": true }
option:
/*eslint max-len: ["error", { "ignoreTemplateLiterals": true }]*/
var longTemplateLiteral = `this is a really really really really really long template literal!`;
ignoreRegExpLiterals
Examples of correct code for this rule with the { "ignoreRegExpLiterals": true }
option:
/*eslint max-len: ["error", { "ignoreRegExpLiterals": true }]*/
var longRegExpLiteral = /this is a really really really really really long regular expression!/;
ignorePattern
Examples of correct code for this rule with the ignorePattern
option:
/*eslint max-len: ["error", { "ignorePattern": "^\\s*var\\s.+=\\s*require\\s*\\(" }]*/
var dep = require('really/really/really/really/really/really/really/really/long/module');
Related Rules
- [complexity](complexity.md)
- [max-depth](max-depth.md)
- [max-nested-callbacks](max-nested-callbacks.md)
- [max-params](max-params.md)
- [max-statements](max-statements.md) Source: http://eslint.org/docs/rules/
Function add_flash
has a Cognitive Complexity of 8 (exceeds 5 allowed). Consider refactoring. Open
window.add_flash = function(msg, level, options) {
level = level || 'success';
options = options || {};
var cls = { alert: '', icon: '' };
- Read upRead up
- Create a ticketCreate a ticket
Cognitive Complexity
Cognitive Complexity is a measure of how difficult a unit of code is to intuitively understand. Unlike Cyclomatic Complexity, which determines how difficult your code will be to test, Cognitive Complexity tells you how difficult your code will be to read and comprehend.
A method's cognitive complexity is based on a few simple rules:
- Code is not considered more complex when it uses shorthand that the language provides for collapsing multiple statements into one
- Code is considered more complex for each "break in the linear flow of the code"
- Code is considered more complex when "flow breaking structures are nested"
Further reading
Unexpected string concatenation. Open
var detailsLink = $('<div class="alert_expand_link"><strong><a href="#">' + detailsLinkTxt + '</a></strong></div>');
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Suggest using template literals instead of string concatenation. (prefer-template)
In ES2015 (ES6), we can use template literals instead of string concatenation.
var str = "Hello, " + name + "!";
/*eslint-env es6*/
var str = `Hello, ${name}!`;
Rule Details
This rule is aimed to flag usage of +
operators with strings.
Examples
Examples of incorrect code for this rule:
/*eslint prefer-template: "error"*/
var str = "Hello, " + name + "!";
var str = "Time: " + (12 * 60 * 60 * 1000);
Examples of correct code for this rule:
/*eslint prefer-template: "error"*/
/*eslint-env es6*/
var str = "Hello World!";
var str = `Hello, ${name}!`;
var str = `Time: ${12 * 60 * 60 * 1000}`;
// This is reported by `no-useless-concat`.
var str = "Hello, " + "World!";
When Not To Use It
This rule should not be used in ES3/5 environments.
In ES2015 (ES6) or later, if you don't want to be notified about string concatenation, you can safely disable this rule.
Related Rules
- [no-useless-concat](no-useless-concat.md)
- [quotes](quotes.md) Source: http://eslint.org/docs/rules/
Unexpected string concatenation. Open
$('#' + options.id).filter('#flash_msg_div > *').remove();
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Suggest using template literals instead of string concatenation. (prefer-template)
In ES2015 (ES6), we can use template literals instead of string concatenation.
var str = "Hello, " + name + "!";
/*eslint-env es6*/
var str = `Hello, ${name}!`;
Rule Details
This rule is aimed to flag usage of +
operators with strings.
Examples
Examples of incorrect code for this rule:
/*eslint prefer-template: "error"*/
var str = "Hello, " + name + "!";
var str = "Time: " + (12 * 60 * 60 * 1000);
Examples of correct code for this rule:
/*eslint prefer-template: "error"*/
/*eslint-env es6*/
var str = "Hello World!";
var str = `Hello, ${name}!`;
var str = `Time: ${12 * 60 * 60 * 1000}`;
// This is reported by `no-useless-concat`.
var str = "Hello, " + "World!";
When Not To Use It
This rule should not be used in ES3/5 environments.
In ES2015 (ES6) or later, if you don't want to be notified about string concatenation, you can safely disable this rule.
Related Rules
- [no-useless-concat](no-useless-concat.md)
- [quotes](quotes.md) Source: http://eslint.org/docs/rules/
Missing semicolon. Open
}
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
require or disallow semicolons instead of ASI (semi)
JavaScript is unique amongst the C-like languages in that it doesn't require semicolons at the end of each statement. In many cases, the JavaScript engine can determine that a semicolon should be in a certain spot and will automatically add it. This feature is known as automatic semicolon insertion (ASI) and is considered one of the more controversial features of JavaScript. For example, the following lines are both valid:
var name = "ESLint"
var website = "eslint.org";
On the first line, the JavaScript engine will automatically insert a semicolon, so this is not considered a syntax error. The JavaScript engine still knows how to interpret the line and knows that the line end indicates the end of the statement.
In the debate over ASI, there are generally two schools of thought. The first is that we should treat ASI as if it didn't exist and always include semicolons manually. The rationale is that it's easier to always include semicolons than to try to remember when they are or are not required, and thus decreases the possibility of introducing an error.
However, the ASI mechanism can sometimes be tricky to people who are using semicolons. For example, consider this code:
return
{
name: "ESLint"
};
This may look like a return
statement that returns an object literal, however, the JavaScript engine will interpret this code as:
return;
{
name: "ESLint";
}
Effectively, a semicolon is inserted after the return
statement, causing the code below it (a labeled literal inside a block) to be unreachable. This rule and the [no-unreachable](no-unreachable.md) rule will protect your code from such cases.
On the other side of the argument are those who say that since semicolons are inserted automatically, they are optional and do not need to be inserted manually. However, the ASI mechanism can also be tricky to people who don't use semicolons. For example, consider this code:
var globalCounter = { }
(function () {
var n = 0
globalCounter.increment = function () {
return ++n
}
})()
In this example, a semicolon will not be inserted after the first line, causing a run-time error (because an empty object is called as if it's a function). The [no-unexpected-multiline](no-unexpected-multiline.md) rule can protect your code from such cases.
Although ASI allows for more freedom over your coding style, it can also make your code behave in an unexpected way, whether you use semicolons or not. Therefore, it is best to know when ASI takes place and when it does not, and have ESLint protect your code from these potentially unexpected cases. In short, as once described by Isaac Schlueter, a \n
character always ends a statement (just like a semicolon) unless one of the following is true:
- The statement has an unclosed paren, array literal, or object literal or ends in some other way that is not a valid way to end a statement. (For instance, ending with
.
or,
.) - The line is
--
or++
(in which case it will decrement/increment the next token.) - It is a
for()
,while()
,do
,if()
, orelse
, and there is no{
- The next line starts with
[
,(
,+
,*
,/
,-
,,
,.
, or some other binary operator that can only be found between two tokens in a single expression.
Rule Details
This rule enforces consistent use of semicolons.
Options
This rule has two options, a string option and an object option.
String option:
-
"always"
(default) requires semicolons at the end of statements -
"never"
disallows semicolons as the end of statements (except to disambiguate statements beginning with[
,(
,/
,+
, or-
)
Object option (when "always"
):
-
"omitLastInOneLineBlock": true
ignores the last semicolon in a block in which its braces (and therefore the content of the block) are in the same line
Object option (when "never"
):
-
"beforeStatementContinuationChars": "any"
(default) ignores semicolons (or lacking semicolon) at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "always"
requires semicolons at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "never"
disallows semicolons as the end of statements if it doesn't make ASI hazard even if the next line starts with[
,(
,/
,+
, or-
.
always
Examples of incorrect code for this rule with the default "always"
option:
/*eslint semi: ["error", "always"]*/
var name = "ESLint"
object.method = function() {
// ...
}
Examples of correct code for this rule with the default "always"
option:
/*eslint semi: "error"*/
var name = "ESLint";
object.method = function() {
// ...
};
never
Examples of incorrect code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint";
object.method = function() {
// ...
};
Examples of correct code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint"
object.method = function() {
// ...
}
var name = "ESLint"
;(function() {
// ...
})()
import a from "a"
(function() {
// ...
})()
import b from "b"
;(function() {
// ...
})()
omitLastInOneLineBlock
Examples of additional correct code for this rule with the "always", { "omitLastInOneLineBlock": true }
options:
/*eslint semi: ["error", "always", { "omitLastInOneLineBlock": true}] */
if (foo) { bar() }
if (foo) { bar(); baz() }
beforeStatementContinuationChars
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "always" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "always"}] */
import a from "a"
(function() {
// ...
})()
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "never" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "never"}] */
import a from "a"
;(function() {
// ...
})()
When Not To Use It
If you do not want to enforce semicolon usage (or omission) in any particular way, then you can turn this rule off.
Further Reading
Related Rules
- [no-extra-semi](no-extra-semi.md)
- [no-unexpected-multiline](no-unexpected-multiline.md)
- [semi-spacing](semi-spacing.md) Source: http://eslint.org/docs/rules/
All 'var' declarations must be at the top of the function scope. Open
var cls = { alert: '', icon: '' };
- Read upRead up
- Create a ticketCreate a ticket
- 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 behavior 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
All 'var' declarations must be at the top of the function scope. Open
var params = {clicked: false, alert_elem: alertDiv, link: detailsLink};
- Read upRead up
- Create a ticketCreate a ticket
- 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 behavior 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
Expected indentation of 2 spaces but found 3. Open
// any new flash message scrolls to top
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
enforce consistent indentation (indent)
There are several common guidelines which require specific indentation of nested blocks and statements, like:
function hello(indentSize, type) {
if (indentSize === 4 && type !== 'tab') {
console.log('Each next indentation will increase on 4 spaces');
}
}
These are the most common scenarios recommended in different style guides:
- Two spaces, not longer and no tabs: Google, npm, Node.js, Idiomatic, Felix
- Tabs: jQuery
- Four spaces: Crockford
Rule Details
This rule enforces a consistent indentation style. The default style is 4 spaces
.
Options
This rule has a mixed option:
For example, for 2-space indentation:
{
"indent": ["error", 2]
}
Or for tabbed indentation:
{
"indent": ["error", "tab"]
}
Examples of incorrect code for this rule with the default options:
/*eslint indent: "error"*/
if (a) {
b=c;
function foo(d) {
e=f;
}
}
Examples of correct code for this rule with the default options:
/*eslint indent: "error"*/
if (a) {
b=c;
function foo(d) {
e=f;
}
}
This rule has an object option:
-
"SwitchCase"
(default: 0) enforces indentation level forcase
clauses inswitch
statements -
"VariableDeclarator"
(default: 1) enforces indentation level forvar
declarators; can also take an object to define separate rules forvar
,let
andconst
declarations. It can also be"first"
, indicating all the declarators should be aligned with the first declarator. -
"outerIIFEBody"
(default: 1) enforces indentation level for file-level IIFEs. -
"MemberExpression"
(default: 1) enforces indentation level for multi-line property chains. This can also be set to"off"
to disable checking for MemberExpression indentation. -
"FunctionDeclaration"
takes an object to define rules for function declarations.-
parameters
(default: 1) enforces indentation level for parameters in a function declaration. This can either be a number indicating indentation level, or the string"first"
indicating that all parameters of the declaration must be aligned with the first parameter. This can also be set to"off"
to disable checking for FunctionDeclaration parameters. -
body
(default: 1) enforces indentation level for the body of a function declaration.
-
-
"FunctionExpression"
takes an object to define rules for function expressions.-
parameters
(default: 1) enforces indentation level for parameters in a function expression. This can either be a number indicating indentation level, or the string"first"
indicating that all parameters of the expression must be aligned with the first parameter. This can also be set to"off"
to disable checking for FunctionExpression parameters. -
body
(default: 1) enforces indentation level for the body of a function expression.
-
-
"CallExpression"
takes an object to define rules for function call expressions.-
arguments
(default: 1) enforces indentation level for arguments in a call expression. This can either be a number indicating indentation level, or the string"first"
indicating that all arguments of the expression must be aligned with the first argument. This can also be set to"off"
to disable checking for CallExpression arguments.
-
-
"ArrayExpression"
(default: 1) enforces indentation level for elements in arrays. It can also be set to the string"first"
, indicating that all the elements in the array should be aligned with the first element. This can also be set to"off"
to disable checking for array elements. -
"ObjectExpression"
(default: 1) enforces indentation level for properties in objects. It can be set to the string"first"
, indicating that all properties in the object should be aligned with the first property. This can also be set to"off"
to disable checking for object properties. -
"ImportDeclaration"
(default: 1) enforces indentation level for import statements. It can be set to the string"first"
, indicating that all imported members from a module should be aligned with the first member in the list. This can also be set to"off"
to disable checking for imported module members. -
"flatTernaryExpressions": true
(false
by default) requires no indentation for ternary expressions which are nested in other ternary expressions. -
"ignoredNodes"
accepts an array of selectors. If an AST node is matched by any of the selectors, the indentation of tokens which are direct children of that node will be ignored. This can be used as an escape hatch to relax the rule if you disagree with the indentation that it enforces for a particular syntactic pattern. -
"ignoreComments"
(default: false) can be used when comments do not need to be aligned with nodes on the previous or next line.
Level of indentation denotes the multiple of the indent specified. Example:
- Indent of 4 spaces with
VariableDeclarator
set to2
will indent the multi-line variable declarations with 8 spaces. - Indent of 2 spaces with
VariableDeclarator
set to2
will indent the multi-line variable declarations with 4 spaces. - Indent of 2 spaces with
VariableDeclarator
set to{"var": 2, "let": 2, "const": 3}
will indent the multi-line variable declarations with 4 spaces forvar
andlet
, 6 spaces forconst
statements. - Indent of tab with
VariableDeclarator
set to2
will indent the multi-line variable declarations with 2 tabs. - Indent of 2 spaces with
SwitchCase
set to0
will not indentcase
clauses with respect toswitch
statements. - Indent of 2 spaces with
SwitchCase
set to1
will indentcase
clauses with 2 spaces with respect toswitch
statements. - Indent of 2 spaces with
SwitchCase
set to2
will indentcase
clauses with 4 spaces with respect toswitch
statements. - Indent of tab with
SwitchCase
set to2
will indentcase
clauses with 2 tabs with respect toswitch
statements. - Indent of 2 spaces with
MemberExpression
set to0
will indent the multi-line property chains with 0 spaces. - Indent of 2 spaces with
MemberExpression
set to1
will indent the multi-line property chains with 2 spaces. - Indent of 2 spaces with
MemberExpression
set to2
will indent the multi-line property chains with 4 spaces. - Indent of 4 spaces with
MemberExpression
set to0
will indent the multi-line property chains with 0 spaces. - Indent of 4 spaces with
MemberExpression
set to1
will indent the multi-line property chains with 4 spaces. - Indent of 4 spaces with
MemberExpression
set to2
will indent the multi-line property chains with 8 spaces.
tab
Examples of incorrect code for this rule with the "tab"
option:
/*eslint indent: ["error", "tab"]*/
if (a) {
b=c;
function foo(d) {
e=f;
}
}
Examples of correct code for this rule with the "tab"
option:
/*eslint indent: ["error", "tab"]*/
if (a) {
/*tab*/b=c;
/*tab*/function foo(d) {
/*tab*//*tab*/e=f;
/*tab*/}
}
SwitchCase
Examples of incorrect code for this rule with the 2, { "SwitchCase": 1 }
options:
/*eslint indent: ["error", 2, { "SwitchCase": 1 }]*/
switch(a){
case "a":
break;
case "b":
break;
}
Examples of correct code for this rule with the 2, { "SwitchCase": 1 }
option:
/*eslint indent: ["error", 2, { "SwitchCase": 1 }]*/
switch(a){
case "a":
break;
case "b":
break;
}
VariableDeclarator
Examples of incorrect code for this rule with the 2, { "VariableDeclarator": 1 }
options:
/*eslint indent: ["error", 2, { "VariableDeclarator": 1 }]*/
/*eslint-env es6*/
var a,
b,
c;
let a,
b,
c;
const a = 1,
b = 2,
c = 3;
Examples of correct code for this rule with the 2, { "VariableDeclarator": 1 }
options:
/*eslint indent: ["error", 2, { "VariableDeclarator": 1 }]*/
/*eslint-env es6*/
var a,
b,
c;
let a,
b,
c;
const a = 1,
b = 2,
c = 3;
Examples of correct code for this rule with the 2, { "VariableDeclarator": 2 }
options:
/*eslint indent: ["error", 2, { "VariableDeclarator": 2 }]*/
/*eslint-env es6*/
var a,
b,
c;
let a,
b,
c;
const a = 1,
b = 2,
c = 3;
Examples of incorrect code for this rule with the 2, { "VariableDeclarator": "first" }
options:
/*eslint indent: ["error", 2, { "VariableDeclarator": "first" }]*/
/*eslint-env es6*/
var a,
b,
c;
let a,
b,
c;
const a = 1,
b = 2,
c = 3;
Examples of correct code for this rule with the 2, { "VariableDeclarator": "first" }
options:
/*eslint indent: ["error", 2, { "VariableDeclarator": "first" }]*/
/*eslint-env es6*/
var a,
b,
c;
let a,
b,
c;
const a = 1,
b = 2,
c = 3;
Examples of correct code for this rule with the 2, { "VariableDeclarator": { "var": 2, "let": 2, "const": 3 } }
options:
/*eslint indent: ["error", 2, { "VariableDeclarator": { "var": 2, "let": 2, "const": 3 } }]*/
/*eslint-env es6*/
var a,
b,
c;
let a,
b,
c;
const a = 1,
b = 2,
c = 3;
outerIIFEBody
Examples of incorrect code for this rule with the options 2, { "outerIIFEBody": 0 }
:
/*eslint indent: ["error", 2, { "outerIIFEBody": 0 }]*/
(function() {
function foo(x) {
return x + 1;
}
})();
if(y) {
console.log('foo');
}
Examples of correct code for this rule with the options 2, {"outerIIFEBody": 0}
:
/*eslint indent: ["error", 2, { "outerIIFEBody": 0 }]*/
(function() {
function foo(x) {
return x + 1;
}
})();
if(y) {
console.log('foo');
}
MemberExpression
Examples of incorrect code for this rule with the 2, { "MemberExpression": 1 }
options:
/*eslint indent: ["error", 2, { "MemberExpression": 1 }]*/
foo
.bar
.baz()
Examples of correct code for this rule with the 2, { "MemberExpression": 1 }
option:
/*eslint indent: ["error", 2, { "MemberExpression": 1 }]*/
foo
.bar
.baz();
FunctionDeclaration
Examples of incorrect code for this rule with the 2, { "FunctionDeclaration": {"body": 1, "parameters": 2} }
option:
/*eslint indent: ["error", 2, { "FunctionDeclaration": {"body": 1, "parameters": 2} }]*/
function foo(bar,
baz,
qux) {
qux();
}
Examples of correct code for this rule with the 2, { "FunctionDeclaration": {"body": 1, "parameters": 2} }
option:
/*eslint indent: ["error", 2, { "FunctionDeclaration": {"body": 1, "parameters": 2} }]*/
function foo(bar,
baz,
qux) {
qux();
}
Examples of incorrect code for this rule with the 2, { "FunctionDeclaration": {"parameters": "first"} }
option:
/*eslint indent: ["error", 2, {"FunctionDeclaration": {"parameters": "first"}}]*/
function foo(bar, baz,
qux, boop) {
qux();
}
Examples of correct code for this rule with the 2, { "FunctionDeclaration": {"parameters": "first"} }
option:
/*eslint indent: ["error", 2, {"FunctionDeclaration": {"parameters": "first"}}]*/
function foo(bar, baz,
qux, boop) {
qux();
}
FunctionExpression
Examples of incorrect code for this rule with the 2, { "FunctionExpression": {"body": 1, "parameters": 2} }
option:
/*eslint indent: ["error", 2, { "FunctionExpression": {"body": 1, "parameters": 2} }]*/
var foo = function(bar,
baz,
qux) {
qux();
}
Examples of correct code for this rule with the 2, { "FunctionExpression": {"body": 1, "parameters": 2} }
option:
/*eslint indent: ["error", 2, { "FunctionExpression": {"body": 1, "parameters": 2} }]*/
var foo = function(bar,
baz,
qux) {
qux();
}
Examples of incorrect code for this rule with the 2, { "FunctionExpression": {"parameters": "first"} }
option:
/*eslint indent: ["error", 2, {"FunctionExpression": {"parameters": "first"}}]*/
var foo = function(bar, baz,
qux, boop) {
qux();
}
Examples of correct code for this rule with the 2, { "FunctionExpression": {"parameters": "first"} }
option:
/*eslint indent: ["error", 2, {"FunctionExpression": {"parameters": "first"}}]*/
var foo = function(bar, baz,
qux, boop) {
qux();
}
CallExpression
Examples of incorrect code for this rule with the 2, { "CallExpression": {"arguments": 1} }
option:
/*eslint indent: ["error", 2, { "CallExpression": {"arguments": 1} }]*/
foo(bar,
baz,
qux
);
Examples of correct code for this rule with the 2, { "CallExpression": {"arguments": 1} }
option:
/*eslint indent: ["error", 2, { "CallExpression": {"arguments": 1} }]*/
foo(bar,
baz,
qux
);
Examples of incorrect code for this rule with the 2, { "CallExpression": {"arguments": "first"} }
option:
/*eslint indent: ["error", 2, {"CallExpression": {"arguments": "first"}}]*/
foo(bar, baz,
baz, boop, beep);
Examples of correct code for this rule with the 2, { "CallExpression": {"arguments": "first"} }
option:
/*eslint indent: ["error", 2, {"CallExpression": {"arguments": "first"}}]*/
foo(bar, baz,
baz, boop, beep);
ArrayExpression
Examples of incorrect code for this rule with the 2, { "ArrayExpression": 1 }
option:
/*eslint indent: ["error", 2, { "ArrayExpression": 1 }]*/
var foo = [
bar,
baz,
qux
];
Examples of correct code for this rule with the 2, { "ArrayExpression": 1 }
option:
/*eslint indent: ["error", 2, { "ArrayExpression": 1 }]*/
var foo = [
bar,
baz,
qux
];
Examples of incorrect code for this rule with the 2, { "ArrayExpression": "first" }
option:
/*eslint indent: ["error", 2, {"ArrayExpression": "first"}]*/
var foo = [bar,
baz,
qux
];
Examples of correct code for this rule with the 2, { "ArrayExpression": "first" }
option:
/*eslint indent: ["error", 2, {"ArrayExpression": "first"}]*/
var foo = [bar,
baz,
qux
];
ObjectExpression
Examples of incorrect code for this rule with the 2, { "ObjectExpression": 1 }
option:
/*eslint indent: ["error", 2, { "ObjectExpression": 1 }]*/
var foo = {
bar: 1,
baz: 2,
qux: 3
};
Examples of correct code for this rule with the 2, { "ObjectExpression": 1 }
option:
/*eslint indent: ["error", 2, { "ObjectExpression": 1 }]*/
var foo = {
bar: 1,
baz: 2,
qux: 3
};
Examples of incorrect code for this rule with the 2, { "ObjectExpression": "first" }
option:
/*eslint indent: ["error", 2, {"ObjectExpression": "first"}]*/
var foo = { bar: 1,
baz: 2 };
Examples of correct code for this rule with the 2, { "ObjectExpression": "first" }
option:
/*eslint indent: ["error", 2, {"ObjectExpression": "first"}]*/
var foo = { bar: 1,
baz: 2 };
ImportDeclaration
Examples of correct code for this rule with the 4, { "ImportDeclaration": 1 }
option (the default):
/*eslint indent: ["error", 4, { ImportDeclaration: 1 }]*/
import { foo,
bar,
baz,
} from 'qux';
import {
foo,
bar,
baz,
} from 'qux';
Examples of incorrect code for this rule with the 4, { ImportDeclaration: "first" }
option:
/*eslint indent: ["error", 4, { ImportDeclaration: "first" }]*/
import { foo,
bar,
baz,
} from 'qux';
Examples of correct code for this rule with the 4, { ImportDeclaration: "first" }
option:
/*eslint indent: ["error", 4, { ImportDeclaration: "first" }]*/
import { foo,
bar,
baz,
} from 'qux';
flatTernaryExpressions
Examples of incorrect code for this rule with the default 4, { "flatTernaryExpressions": false }
option:
/*eslint indent: ["error", 4, { "flatTernaryExpressions": false }]*/
var a =
foo ? bar :
baz ? qux :
boop;
Examples of correct code for this rule with the default 4, { "flatTernaryExpressions": false }
option:
/*eslint indent: ["error", 4, { "flatTernaryExpressions": false }]*/
var a =
foo ? bar :
baz ? qux :
boop;
Examples of incorrect code for this rule with the 4, { "flatTernaryExpressions": true }
option:
/*eslint indent: ["error", 4, { "flatTernaryExpressions": true }]*/
var a =
foo ? bar :
baz ? qux :
boop;
Examples of correct code for this rule with the 4, { "flatTernaryExpressions": true }
option:
/*eslint indent: ["error", 4, { "flatTernaryExpressions": true }]*/
var a =
foo ? bar :
baz ? qux :
boop;
ignoredNodes
The following configuration ignores the indentation of ConditionalExpression
("ternary expression") nodes:
Examples of correct code for this rule with the 4, { "ignoredNodes": ["ConditionalExpression"] }
option:
/*eslint indent: ["error", 4, { "ignoredNodes": ["ConditionalExpression"] }]*/
var a = foo
? bar
: baz;
var a = foo
? bar
: baz;
The following configuration ignores indentation in the body of IIFEs.
Examples of correct code for this rule with the 4, { "ignoredNodes": ["CallExpression > FunctionExpression.callee > BlockStatement.body"] }
option:
/*eslint indent: ["error", 4, { "ignoredNodes": ["CallExpression > FunctionExpression.callee > BlockStatement.body"] }]*/
(function() {
foo();
bar();
})
ignoreComments
Examples of additional correct code for this rule with the 4, { "ignoreComments": true }
option:
/*eslint indent: ["error", 4, { "ignoreComments": true }] */
if (foo) {
doSomething();
// comment intentionally de-indented
doSomethingElse();
}
Compatibility
-
JSHint:
indent
- JSCS: validateIndentation Source: http://eslint.org/docs/rules/
All 'var' declarations must be at the top of the function scope. Open
var iconSpan = $('<span class="' + cls.icon + '"></span>');
- Read upRead up
- Create a ticketCreate a ticket
- 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 behavior 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
All 'var' declarations must be at the top of the function scope. Open
var textStrong = $('<strong></strong>');
- Read upRead up
- Create a ticketCreate a ticket
- 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 behavior 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
Unexpected var, use let or const instead. Open
var textStrong = $('<strong></strong>');
- Read upRead up
- Create a ticketCreate a ticket
- 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 detailsLinkTxt = __('View More');
- Read upRead up
- Create a ticketCreate a ticket
- 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 string concatenation. Open
throw ('add_flash: unknown level: ' + level);
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Suggest using template literals instead of string concatenation. (prefer-template)
In ES2015 (ES6), we can use template literals instead of string concatenation.
var str = "Hello, " + name + "!";
/*eslint-env es6*/
var str = `Hello, ${name}!`;
Rule Details
This rule is aimed to flag usage of +
operators with strings.
Examples
Examples of incorrect code for this rule:
/*eslint prefer-template: "error"*/
var str = "Hello, " + name + "!";
var str = "Time: " + (12 * 60 * 60 * 1000);
Examples of correct code for this rule:
/*eslint prefer-template: "error"*/
/*eslint-env es6*/
var str = "Hello World!";
var str = `Hello, ${name}!`;
var str = `Time: ${12 * 60 * 60 * 1000}`;
// This is reported by `no-useless-concat`.
var str = "Hello, " + "World!";
When Not To Use It
This rule should not be used in ES3/5 environments.
In ES2015 (ES6) or later, if you don't want to be notified about string concatenation, you can safely disable this rule.
Related Rules
- [no-useless-concat](no-useless-concat.md)
- [quotes](quotes.md) Source: http://eslint.org/docs/rules/
All 'var' declarations must be at the top of the function scope. Open
var textDiv = $('<div class="flash_text_div"></div>');
- Read upRead up
- Create a ticketCreate a ticket
- 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 behavior 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
Unexpected var, use let or const instead. Open
var found = false;
- Read upRead up
- Create a ticketCreate a ticket
- 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/
Missing semicolon. Open
}
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
require or disallow semicolons instead of ASI (semi)
JavaScript is unique amongst the C-like languages in that it doesn't require semicolons at the end of each statement. In many cases, the JavaScript engine can determine that a semicolon should be in a certain spot and will automatically add it. This feature is known as automatic semicolon insertion (ASI) and is considered one of the more controversial features of JavaScript. For example, the following lines are both valid:
var name = "ESLint"
var website = "eslint.org";
On the first line, the JavaScript engine will automatically insert a semicolon, so this is not considered a syntax error. The JavaScript engine still knows how to interpret the line and knows that the line end indicates the end of the statement.
In the debate over ASI, there are generally two schools of thought. The first is that we should treat ASI as if it didn't exist and always include semicolons manually. The rationale is that it's easier to always include semicolons than to try to remember when they are or are not required, and thus decreases the possibility of introducing an error.
However, the ASI mechanism can sometimes be tricky to people who are using semicolons. For example, consider this code:
return
{
name: "ESLint"
};
This may look like a return
statement that returns an object literal, however, the JavaScript engine will interpret this code as:
return;
{
name: "ESLint";
}
Effectively, a semicolon is inserted after the return
statement, causing the code below it (a labeled literal inside a block) to be unreachable. This rule and the [no-unreachable](no-unreachable.md) rule will protect your code from such cases.
On the other side of the argument are those who say that since semicolons are inserted automatically, they are optional and do not need to be inserted manually. However, the ASI mechanism can also be tricky to people who don't use semicolons. For example, consider this code:
var globalCounter = { }
(function () {
var n = 0
globalCounter.increment = function () {
return ++n
}
})()
In this example, a semicolon will not be inserted after the first line, causing a run-time error (because an empty object is called as if it's a function). The [no-unexpected-multiline](no-unexpected-multiline.md) rule can protect your code from such cases.
Although ASI allows for more freedom over your coding style, it can also make your code behave in an unexpected way, whether you use semicolons or not. Therefore, it is best to know when ASI takes place and when it does not, and have ESLint protect your code from these potentially unexpected cases. In short, as once described by Isaac Schlueter, a \n
character always ends a statement (just like a semicolon) unless one of the following is true:
- The statement has an unclosed paren, array literal, or object literal or ends in some other way that is not a valid way to end a statement. (For instance, ending with
.
or,
.) - The line is
--
or++
(in which case it will decrement/increment the next token.) - It is a
for()
,while()
,do
,if()
, orelse
, and there is no{
- The next line starts with
[
,(
,+
,*
,/
,-
,,
,.
, or some other binary operator that can only be found between two tokens in a single expression.
Rule Details
This rule enforces consistent use of semicolons.
Options
This rule has two options, a string option and an object option.
String option:
-
"always"
(default) requires semicolons at the end of statements -
"never"
disallows semicolons as the end of statements (except to disambiguate statements beginning with[
,(
,/
,+
, or-
)
Object option (when "always"
):
-
"omitLastInOneLineBlock": true
ignores the last semicolon in a block in which its braces (and therefore the content of the block) are in the same line
Object option (when "never"
):
-
"beforeStatementContinuationChars": "any"
(default) ignores semicolons (or lacking semicolon) at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "always"
requires semicolons at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "never"
disallows semicolons as the end of statements if it doesn't make ASI hazard even if the next line starts with[
,(
,/
,+
, or-
.
always
Examples of incorrect code for this rule with the default "always"
option:
/*eslint semi: ["error", "always"]*/
var name = "ESLint"
object.method = function() {
// ...
}
Examples of correct code for this rule with the default "always"
option:
/*eslint semi: "error"*/
var name = "ESLint";
object.method = function() {
// ...
};
never
Examples of incorrect code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint";
object.method = function() {
// ...
};
Examples of correct code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint"
object.method = function() {
// ...
}
var name = "ESLint"
;(function() {
// ...
})()
import a from "a"
(function() {
// ...
})()
import b from "b"
;(function() {
// ...
})()
omitLastInOneLineBlock
Examples of additional correct code for this rule with the "always", { "omitLastInOneLineBlock": true }
options:
/*eslint semi: ["error", "always", { "omitLastInOneLineBlock": true}] */
if (foo) { bar() }
if (foo) { bar(); baz() }
beforeStatementContinuationChars
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "always" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "always"}] */
import a from "a"
(function() {
// ...
})()
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "never" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "never"}] */
import a from "a"
;(function() {
// ...
})()
When Not To Use It
If you do not want to enforce semicolon usage (or omission) in any particular way, then you can turn this rule off.
Further Reading
Related Rules
- [no-extra-semi](no-extra-semi.md)
- [no-unexpected-multiline](no-unexpected-multiline.md)
- [semi-spacing](semi-spacing.md) Source: http://eslint.org/docs/rules/
Unexpected var, use let or const instead. Open
var ary = _miqFlashLoad();
- Read upRead up
- Create a ticketCreate a ticket
- 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/
Missing semicolon. Open
}
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
require or disallow semicolons instead of ASI (semi)
JavaScript is unique amongst the C-like languages in that it doesn't require semicolons at the end of each statement. In many cases, the JavaScript engine can determine that a semicolon should be in a certain spot and will automatically add it. This feature is known as automatic semicolon insertion (ASI) and is considered one of the more controversial features of JavaScript. For example, the following lines are both valid:
var name = "ESLint"
var website = "eslint.org";
On the first line, the JavaScript engine will automatically insert a semicolon, so this is not considered a syntax error. The JavaScript engine still knows how to interpret the line and knows that the line end indicates the end of the statement.
In the debate over ASI, there are generally two schools of thought. The first is that we should treat ASI as if it didn't exist and always include semicolons manually. The rationale is that it's easier to always include semicolons than to try to remember when they are or are not required, and thus decreases the possibility of introducing an error.
However, the ASI mechanism can sometimes be tricky to people who are using semicolons. For example, consider this code:
return
{
name: "ESLint"
};
This may look like a return
statement that returns an object literal, however, the JavaScript engine will interpret this code as:
return;
{
name: "ESLint";
}
Effectively, a semicolon is inserted after the return
statement, causing the code below it (a labeled literal inside a block) to be unreachable. This rule and the [no-unreachable](no-unreachable.md) rule will protect your code from such cases.
On the other side of the argument are those who say that since semicolons are inserted automatically, they are optional and do not need to be inserted manually. However, the ASI mechanism can also be tricky to people who don't use semicolons. For example, consider this code:
var globalCounter = { }
(function () {
var n = 0
globalCounter.increment = function () {
return ++n
}
})()
In this example, a semicolon will not be inserted after the first line, causing a run-time error (because an empty object is called as if it's a function). The [no-unexpected-multiline](no-unexpected-multiline.md) rule can protect your code from such cases.
Although ASI allows for more freedom over your coding style, it can also make your code behave in an unexpected way, whether you use semicolons or not. Therefore, it is best to know when ASI takes place and when it does not, and have ESLint protect your code from these potentially unexpected cases. In short, as once described by Isaac Schlueter, a \n
character always ends a statement (just like a semicolon) unless one of the following is true:
- The statement has an unclosed paren, array literal, or object literal or ends in some other way that is not a valid way to end a statement. (For instance, ending with
.
or,
.) - The line is
--
or++
(in which case it will decrement/increment the next token.) - It is a
for()
,while()
,do
,if()
, orelse
, and there is no{
- The next line starts with
[
,(
,+
,*
,/
,-
,,
,.
, or some other binary operator that can only be found between two tokens in a single expression.
Rule Details
This rule enforces consistent use of semicolons.
Options
This rule has two options, a string option and an object option.
String option:
-
"always"
(default) requires semicolons at the end of statements -
"never"
disallows semicolons as the end of statements (except to disambiguate statements beginning with[
,(
,/
,+
, or-
)
Object option (when "always"
):
-
"omitLastInOneLineBlock": true
ignores the last semicolon in a block in which its braces (and therefore the content of the block) are in the same line
Object option (when "never"
):
-
"beforeStatementContinuationChars": "any"
(default) ignores semicolons (or lacking semicolon) at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "always"
requires semicolons at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "never"
disallows semicolons as the end of statements if it doesn't make ASI hazard even if the next line starts with[
,(
,/
,+
, or-
.
always
Examples of incorrect code for this rule with the default "always"
option:
/*eslint semi: ["error", "always"]*/
var name = "ESLint"
object.method = function() {
// ...
}
Examples of correct code for this rule with the default "always"
option:
/*eslint semi: "error"*/
var name = "ESLint";
object.method = function() {
// ...
};
never
Examples of incorrect code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint";
object.method = function() {
// ...
};
Examples of correct code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint"
object.method = function() {
// ...
}
var name = "ESLint"
;(function() {
// ...
})()
import a from "a"
(function() {
// ...
})()
import b from "b"
;(function() {
// ...
})()
omitLastInOneLineBlock
Examples of additional correct code for this rule with the "always", { "omitLastInOneLineBlock": true }
options:
/*eslint semi: ["error", "always", { "omitLastInOneLineBlock": true}] */
if (foo) { bar() }
if (foo) { bar(); baz() }
beforeStatementContinuationChars
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "always" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "always"}] */
import a from "a"
(function() {
// ...
})()
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "never" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "never"}] */
import a from "a"
;(function() {
// ...
})()
When Not To Use It
If you do not want to enforce semicolon usage (or omission) in any particular way, then you can turn this rule off.
Further Reading
Related Rules
- [no-extra-semi](no-extra-semi.md)
- [no-unexpected-multiline](no-unexpected-multiline.md)
- [semi-spacing](semi-spacing.md) Source: http://eslint.org/docs/rules/
Unexpected function expression. Open
ary.forEach(function(obj) {
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Require using arrow functions for callbacks (prefer-arrow-callback)
Arrow functions can be an attractive alternative to function expressions for callbacks or function arguments.
For example, arrow functions are automatically bound to their surrounding scope/context. This provides an alternative to the pre-ES6 standard of explicitly binding function expressions to achieve similar behavior.
Additionally, arrow functions are:
less verbose, and easier to reason about.
bound lexically regardless of where or when they are invoked.
Rule Details
This rule locates function expressions used as callbacks or function arguments. An error will be produced for any that could be replaced by an arrow function without changing the result.
The following examples will be flagged:
/* eslint prefer-arrow-callback: "error" */
foo(function(a) { return a; }); // ERROR
// prefer: foo(a => a)
foo(function() { return this.a; }.bind(this)); // ERROR
// prefer: foo(() => this.a)
Instances where an arrow function would not produce identical results will be ignored.
The following examples will not be flagged:
/* eslint prefer-arrow-callback: "error" */
/* eslint-env es6 */
// arrow function callback
foo(a => a); // OK
// generator as callback
foo(function*() { yield; }); // OK
// function expression not used as callback or function argument
var foo = function foo(a) { return a; }; // OK
// unbound function expression callback
foo(function() { return this.a; }); // OK
// recursive named function callback
foo(function bar(n) { return n && n + bar(n - 1); }); // OK
Options
Access further control over this rule's behavior via an options object.
Default: { allowNamedFunctions: false, allowUnboundThis: true }
allowNamedFunctions
By default { "allowNamedFunctions": false }
, this boolean
option prohibits using named functions as callbacks or function arguments.
Changing this value to true
will reverse this option's behavior by allowing use of named functions without restriction.
{ "allowNamedFunctions": true }
will not flag the following example:
/* eslint prefer-arrow-callback: [ "error", { "allowNamedFunctions": true } ] */
foo(function bar() {});
allowUnboundThis
By default { "allowUnboundThis": true }
, this boolean
option allows function expressions containing this
to be used as callbacks, as long as the function in question has not been explicitly bound.
When set to false
this option prohibits the use of function expressions as callbacks or function arguments entirely, without exception.
{ "allowUnboundThis": false }
will flag the following examples:
/* eslint prefer-arrow-callback: [ "error", { "allowUnboundThis": false } ] */
/* eslint-env es6 */
foo(function() { this.a; });
foo(function() { (() => this); });
someArray.map(function(itm) { return this.doSomething(itm); }, someObject);
When Not To Use It
In environments that have not yet adopted ES6 language features (ES3/5).
In ES6+ environments that allow the use of function expressions when describing callbacks or function arguments.
Further Reading
Missing semicolon. Open
}
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
require or disallow semicolons instead of ASI (semi)
JavaScript is unique amongst the C-like languages in that it doesn't require semicolons at the end of each statement. In many cases, the JavaScript engine can determine that a semicolon should be in a certain spot and will automatically add it. This feature is known as automatic semicolon insertion (ASI) and is considered one of the more controversial features of JavaScript. For example, the following lines are both valid:
var name = "ESLint"
var website = "eslint.org";
On the first line, the JavaScript engine will automatically insert a semicolon, so this is not considered a syntax error. The JavaScript engine still knows how to interpret the line and knows that the line end indicates the end of the statement.
In the debate over ASI, there are generally two schools of thought. The first is that we should treat ASI as if it didn't exist and always include semicolons manually. The rationale is that it's easier to always include semicolons than to try to remember when they are or are not required, and thus decreases the possibility of introducing an error.
However, the ASI mechanism can sometimes be tricky to people who are using semicolons. For example, consider this code:
return
{
name: "ESLint"
};
This may look like a return
statement that returns an object literal, however, the JavaScript engine will interpret this code as:
return;
{
name: "ESLint";
}
Effectively, a semicolon is inserted after the return
statement, causing the code below it (a labeled literal inside a block) to be unreachable. This rule and the [no-unreachable](no-unreachable.md) rule will protect your code from such cases.
On the other side of the argument are those who say that since semicolons are inserted automatically, they are optional and do not need to be inserted manually. However, the ASI mechanism can also be tricky to people who don't use semicolons. For example, consider this code:
var globalCounter = { }
(function () {
var n = 0
globalCounter.increment = function () {
return ++n
}
})()
In this example, a semicolon will not be inserted after the first line, causing a run-time error (because an empty object is called as if it's a function). The [no-unexpected-multiline](no-unexpected-multiline.md) rule can protect your code from such cases.
Although ASI allows for more freedom over your coding style, it can also make your code behave in an unexpected way, whether you use semicolons or not. Therefore, it is best to know when ASI takes place and when it does not, and have ESLint protect your code from these potentially unexpected cases. In short, as once described by Isaac Schlueter, a \n
character always ends a statement (just like a semicolon) unless one of the following is true:
- The statement has an unclosed paren, array literal, or object literal or ends in some other way that is not a valid way to end a statement. (For instance, ending with
.
or,
.) - The line is
--
or++
(in which case it will decrement/increment the next token.) - It is a
for()
,while()
,do
,if()
, orelse
, and there is no{
- The next line starts with
[
,(
,+
,*
,/
,-
,,
,.
, or some other binary operator that can only be found between two tokens in a single expression.
Rule Details
This rule enforces consistent use of semicolons.
Options
This rule has two options, a string option and an object option.
String option:
-
"always"
(default) requires semicolons at the end of statements -
"never"
disallows semicolons as the end of statements (except to disambiguate statements beginning with[
,(
,/
,+
, or-
)
Object option (when "always"
):
-
"omitLastInOneLineBlock": true
ignores the last semicolon in a block in which its braces (and therefore the content of the block) are in the same line
Object option (when "never"
):
-
"beforeStatementContinuationChars": "any"
(default) ignores semicolons (or lacking semicolon) at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "always"
requires semicolons at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "never"
disallows semicolons as the end of statements if it doesn't make ASI hazard even if the next line starts with[
,(
,/
,+
, or-
.
always
Examples of incorrect code for this rule with the default "always"
option:
/*eslint semi: ["error", "always"]*/
var name = "ESLint"
object.method = function() {
// ...
}
Examples of correct code for this rule with the default "always"
option:
/*eslint semi: "error"*/
var name = "ESLint";
object.method = function() {
// ...
};
never
Examples of incorrect code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint";
object.method = function() {
// ...
};
Examples of correct code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint"
object.method = function() {
// ...
}
var name = "ESLint"
;(function() {
// ...
})()
import a from "a"
(function() {
// ...
})()
import b from "b"
;(function() {
// ...
})()
omitLastInOneLineBlock
Examples of additional correct code for this rule with the "always", { "omitLastInOneLineBlock": true }
options:
/*eslint semi: ["error", "always", { "omitLastInOneLineBlock": true}] */
if (foo) { bar() }
if (foo) { bar(); baz() }
beforeStatementContinuationChars
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "always" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "always"}] */
import a from "a"
(function() {
// ...
})()
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "never" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "never"}] */
import a from "a"
;(function() {
// ...
})()
When Not To Use It
If you do not want to enforce semicolon usage (or omission) in any particular way, then you can turn this rule off.
Further Reading
Related Rules
- [no-extra-semi](no-extra-semi.md)
- [no-unexpected-multiline](no-unexpected-multiline.md)
- [semi-spacing](semi-spacing.md) Source: http://eslint.org/docs/rules/
All 'var' declarations must be at the top of the function scope. Open
var detailsLinkTxt = __('View More');
- Read upRead up
- Create a ticketCreate a ticket
- 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 behavior 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
All 'var' declarations must be at the top of the function scope. Open
var detailsLink = $('<div class="alert_expand_link"><strong><a href="#">' + detailsLinkTxt + '</a></strong></div>');
- Read upRead up
- Create a ticketCreate a ticket
- 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 behavior 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
A space is required after '{'. Open
var params = {clicked: false, alert_elem: alertDiv, link: detailsLink};
- Read upRead up
- Create a ticketCreate a ticket
- 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 enforces 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
- [array-bracket-spacing](array-bracket-spacing.md)
- [comma-spacing](comma-spacing.md)
- [computed-property-spacing](computed-property-spacing.md)
- [space-in-parens](space-in-parens.md) Source: http://eslint.org/docs/rules/
Unexpected var, use let or const instead. Open
var ary = _miqFlashLoad();
- Read upRead up
- Create a ticketCreate a ticket
- 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/
A space is required before '}'. Open
.css({display: 'inline-block', width: 'auto', visibility: 'hidden'})
- Read upRead up
- Create a ticketCreate a ticket
- 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 enforces 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
- [array-bracket-spacing](array-bracket-spacing.md)
- [comma-spacing](comma-spacing.md)
- [computed-property-spacing](computed-property-spacing.md)
- [space-in-parens](space-in-parens.md) Source: http://eslint.org/docs/rules/
There should be no spaces inside this paren. Open
if ( $c.width() > element.width() ) {
- Read upRead up
- Create a ticketCreate a ticket
- 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 cls = { alert: '', icon: '' };
- Read upRead up
- Create a ticketCreate a ticket
- 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 iconSpan = $('<span class="' + cls.icon + '"></span>');
- Read upRead up
- Create a ticketCreate a ticket
- 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 alertDiv = $('<div class="' + cls.alert + '"><button class="close" data-dismiss="alert"><span class="pficon pficon-close"></span></button></div>');
- Read upRead up
- Create a ticketCreate a ticket
- 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 behavior 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
Unexpected var, use let or const instead. Open
var alertDiv = $('<div class="' + cls.alert + '"><button class="close" data-dismiss="alert"><span class="pficon pficon-close"></span></button></div>');
- Read upRead up
- Create a ticketCreate a ticket
- 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 detailsLink = $('<div class="alert_expand_link"><strong><a href="#">' + detailsLinkTxt + '</a></strong></div>');
- Read upRead up
- Create a ticketCreate a ticket
- 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/
Missing semicolon. Open
}
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
require or disallow semicolons instead of ASI (semi)
JavaScript is unique amongst the C-like languages in that it doesn't require semicolons at the end of each statement. In many cases, the JavaScript engine can determine that a semicolon should be in a certain spot and will automatically add it. This feature is known as automatic semicolon insertion (ASI) and is considered one of the more controversial features of JavaScript. For example, the following lines are both valid:
var name = "ESLint"
var website = "eslint.org";
On the first line, the JavaScript engine will automatically insert a semicolon, so this is not considered a syntax error. The JavaScript engine still knows how to interpret the line and knows that the line end indicates the end of the statement.
In the debate over ASI, there are generally two schools of thought. The first is that we should treat ASI as if it didn't exist and always include semicolons manually. The rationale is that it's easier to always include semicolons than to try to remember when they are or are not required, and thus decreases the possibility of introducing an error.
However, the ASI mechanism can sometimes be tricky to people who are using semicolons. For example, consider this code:
return
{
name: "ESLint"
};
This may look like a return
statement that returns an object literal, however, the JavaScript engine will interpret this code as:
return;
{
name: "ESLint";
}
Effectively, a semicolon is inserted after the return
statement, causing the code below it (a labeled literal inside a block) to be unreachable. This rule and the [no-unreachable](no-unreachable.md) rule will protect your code from such cases.
On the other side of the argument are those who say that since semicolons are inserted automatically, they are optional and do not need to be inserted manually. However, the ASI mechanism can also be tricky to people who don't use semicolons. For example, consider this code:
var globalCounter = { }
(function () {
var n = 0
globalCounter.increment = function () {
return ++n
}
})()
In this example, a semicolon will not be inserted after the first line, causing a run-time error (because an empty object is called as if it's a function). The [no-unexpected-multiline](no-unexpected-multiline.md) rule can protect your code from such cases.
Although ASI allows for more freedom over your coding style, it can also make your code behave in an unexpected way, whether you use semicolons or not. Therefore, it is best to know when ASI takes place and when it does not, and have ESLint protect your code from these potentially unexpected cases. In short, as once described by Isaac Schlueter, a \n
character always ends a statement (just like a semicolon) unless one of the following is true:
- The statement has an unclosed paren, array literal, or object literal or ends in some other way that is not a valid way to end a statement. (For instance, ending with
.
or,
.) - The line is
--
or++
(in which case it will decrement/increment the next token.) - It is a
for()
,while()
,do
,if()
, orelse
, and there is no{
- The next line starts with
[
,(
,+
,*
,/
,-
,,
,.
, or some other binary operator that can only be found between two tokens in a single expression.
Rule Details
This rule enforces consistent use of semicolons.
Options
This rule has two options, a string option and an object option.
String option:
-
"always"
(default) requires semicolons at the end of statements -
"never"
disallows semicolons as the end of statements (except to disambiguate statements beginning with[
,(
,/
,+
, or-
)
Object option (when "always"
):
-
"omitLastInOneLineBlock": true
ignores the last semicolon in a block in which its braces (and therefore the content of the block) are in the same line
Object option (when "never"
):
-
"beforeStatementContinuationChars": "any"
(default) ignores semicolons (or lacking semicolon) at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "always"
requires semicolons at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "never"
disallows semicolons as the end of statements if it doesn't make ASI hazard even if the next line starts with[
,(
,/
,+
, or-
.
always
Examples of incorrect code for this rule with the default "always"
option:
/*eslint semi: ["error", "always"]*/
var name = "ESLint"
object.method = function() {
// ...
}
Examples of correct code for this rule with the default "always"
option:
/*eslint semi: "error"*/
var name = "ESLint";
object.method = function() {
// ...
};
never
Examples of incorrect code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint";
object.method = function() {
// ...
};
Examples of correct code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint"
object.method = function() {
// ...
}
var name = "ESLint"
;(function() {
// ...
})()
import a from "a"
(function() {
// ...
})()
import b from "b"
;(function() {
// ...
})()
omitLastInOneLineBlock
Examples of additional correct code for this rule with the "always", { "omitLastInOneLineBlock": true }
options:
/*eslint semi: ["error", "always", { "omitLastInOneLineBlock": true}] */
if (foo) { bar() }
if (foo) { bar(); baz() }
beforeStatementContinuationChars
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "always" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "always"}] */
import a from "a"
(function() {
// ...
})()
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "never" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "never"}] */
import a from "a"
;(function() {
// ...
})()
When Not To Use It
If you do not want to enforce semicolon usage (or omission) in any particular way, then you can turn this rule off.
Further Reading
Related Rules
- [no-extra-semi](no-extra-semi.md)
- [no-unexpected-multiline](no-unexpected-multiline.md)
- [semi-spacing](semi-spacing.md) Source: http://eslint.org/docs/rules/
A space is required before '}'. Open
var params = {clicked: false, alert_elem: alertDiv, link: detailsLink};
- Read upRead up
- Create a ticketCreate a ticket
- 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 enforces 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
- [array-bracket-spacing](array-bracket-spacing.md)
- [comma-spacing](comma-spacing.md)
- [computed-property-spacing](computed-property-spacing.md)
- [space-in-parens](space-in-parens.md) Source: http://eslint.org/docs/rules/
Unexpected function expression. Open
detailsLink.on('click', function() {
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Require using arrow functions for callbacks (prefer-arrow-callback)
Arrow functions can be an attractive alternative to function expressions for callbacks or function arguments.
For example, arrow functions are automatically bound to their surrounding scope/context. This provides an alternative to the pre-ES6 standard of explicitly binding function expressions to achieve similar behavior.
Additionally, arrow functions are:
less verbose, and easier to reason about.
bound lexically regardless of where or when they are invoked.
Rule Details
This rule locates function expressions used as callbacks or function arguments. An error will be produced for any that could be replaced by an arrow function without changing the result.
The following examples will be flagged:
/* eslint prefer-arrow-callback: "error" */
foo(function(a) { return a; }); // ERROR
// prefer: foo(a => a)
foo(function() { return this.a; }.bind(this)); // ERROR
// prefer: foo(() => this.a)
Instances where an arrow function would not produce identical results will be ignored.
The following examples will not be flagged:
/* eslint prefer-arrow-callback: "error" */
/* eslint-env es6 */
// arrow function callback
foo(a => a); // OK
// generator as callback
foo(function*() { yield; }); // OK
// function expression not used as callback or function argument
var foo = function foo(a) { return a; }; // OK
// unbound function expression callback
foo(function() { return this.a; }); // OK
// recursive named function callback
foo(function bar(n) { return n && n + bar(n - 1); }); // OK
Options
Access further control over this rule's behavior via an options object.
Default: { allowNamedFunctions: false, allowUnboundThis: true }
allowNamedFunctions
By default { "allowNamedFunctions": false }
, this boolean
option prohibits using named functions as callbacks or function arguments.
Changing this value to true
will reverse this option's behavior by allowing use of named functions without restriction.
{ "allowNamedFunctions": true }
will not flag the following example:
/* eslint prefer-arrow-callback: [ "error", { "allowNamedFunctions": true } ] */
foo(function bar() {});
allowUnboundThis
By default { "allowUnboundThis": true }
, this boolean
option allows function expressions containing this
to be used as callbacks, as long as the function in question has not been explicitly bound.
When set to false
this option prohibits the use of function expressions as callbacks or function arguments entirely, without exception.
{ "allowUnboundThis": false }
will flag the following examples:
/* eslint prefer-arrow-callback: [ "error", { "allowUnboundThis": false } ] */
/* eslint-env es6 */
foo(function() { this.a; });
foo(function() { (() => this); });
someArray.map(function(itm) { return this.doSomething(itm); }, someObject);
When Not To Use It
In environments that have not yet adopted ES6 language features (ES3/5).
In ES6+ environments that allow the use of function expressions when describing callbacks or function arguments.
Further Reading
Unexpected var, use let or const instead. Open
var $c = element
- Read upRead up
- Create a ticketCreate a ticket
- 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 viewMoreTxt = __('View More');
- Read upRead up
- Create a ticketCreate a ticket
- 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/
Expected an object to be thrown. Open
throw ('add_flash: unknown level: ' + level);
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Restrict what can be thrown as an exception (no-throw-literal)
It is considered good practice to only throw
the Error
object itself or an object using the Error
object as base objects for user-defined exceptions.
The fundamental benefit of Error
objects is that they automatically keep track of where they were built and originated.
This rule restricts what can be thrown as an exception. When it was first created, it only prevented literals from being thrown (hence the name), but it has now been expanded to only allow expressions which have a possibility of being an Error
object.
Rule Details
This rule is aimed at maintaining consistency when throwing exception by disallowing to throw literals and other expressions which cannot possibly be an Error
object.
Examples of incorrect code for this rule:
/*eslint no-throw-literal: "error"*/
/*eslint-env es6*/
throw "error";
throw 0;
throw undefined;
throw null;
var err = new Error();
throw "an " + err;
// err is recast to a string literal
var err = new Error();
throw `${err}`
Examples of correct code for this rule:
/*eslint no-throw-literal: "error"*/
throw new Error();
throw new Error("error");
var e = new Error("error");
throw e;
try {
throw new Error("error");
} catch (e) {
throw e;
}
Known Limitations
Due to the limits of static analysis, this rule cannot guarantee that you will only throw Error
objects.
Examples of correct code for this rule, but which do not throw an Error
object:
/*eslint no-throw-literal: "error"*/
var err = "error";
throw err;
function foo(bar) {
console.log(bar);
}
throw foo("error");
throw new String("error");
var foo = {
bar: "error"
};
throw foo.bar;
Source: http://eslint.org/docs/rules/
Unexpected var, use let or const instead. Open
var params = {clicked: false, alert_elem: alertDiv, link: detailsLink};
- Read upRead up
- Create a ticketCreate a ticket
- 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
if ( options.long_alert && !checkElipsis(alertDiv) ) {
- Read upRead up
- Create a ticketCreate a ticket
- 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
if ( $c.width() > element.width() ) {
- Read upRead up
- Create a ticketCreate a ticket
- 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
if ( options.long_alert && !checkElipsis(alertDiv) ) {
- Read upRead up
- Create a ticketCreate a ticket
- 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/
Missing semicolon. Open
}
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
require or disallow semicolons instead of ASI (semi)
JavaScript is unique amongst the C-like languages in that it doesn't require semicolons at the end of each statement. In many cases, the JavaScript engine can determine that a semicolon should be in a certain spot and will automatically add it. This feature is known as automatic semicolon insertion (ASI) and is considered one of the more controversial features of JavaScript. For example, the following lines are both valid:
var name = "ESLint"
var website = "eslint.org";
On the first line, the JavaScript engine will automatically insert a semicolon, so this is not considered a syntax error. The JavaScript engine still knows how to interpret the line and knows that the line end indicates the end of the statement.
In the debate over ASI, there are generally two schools of thought. The first is that we should treat ASI as if it didn't exist and always include semicolons manually. The rationale is that it's easier to always include semicolons than to try to remember when they are or are not required, and thus decreases the possibility of introducing an error.
However, the ASI mechanism can sometimes be tricky to people who are using semicolons. For example, consider this code:
return
{
name: "ESLint"
};
This may look like a return
statement that returns an object literal, however, the JavaScript engine will interpret this code as:
return;
{
name: "ESLint";
}
Effectively, a semicolon is inserted after the return
statement, causing the code below it (a labeled literal inside a block) to be unreachable. This rule and the [no-unreachable](no-unreachable.md) rule will protect your code from such cases.
On the other side of the argument are those who say that since semicolons are inserted automatically, they are optional and do not need to be inserted manually. However, the ASI mechanism can also be tricky to people who don't use semicolons. For example, consider this code:
var globalCounter = { }
(function () {
var n = 0
globalCounter.increment = function () {
return ++n
}
})()
In this example, a semicolon will not be inserted after the first line, causing a run-time error (because an empty object is called as if it's a function). The [no-unexpected-multiline](no-unexpected-multiline.md) rule can protect your code from such cases.
Although ASI allows for more freedom over your coding style, it can also make your code behave in an unexpected way, whether you use semicolons or not. Therefore, it is best to know when ASI takes place and when it does not, and have ESLint protect your code from these potentially unexpected cases. In short, as once described by Isaac Schlueter, a \n
character always ends a statement (just like a semicolon) unless one of the following is true:
- The statement has an unclosed paren, array literal, or object literal or ends in some other way that is not a valid way to end a statement. (For instance, ending with
.
or,
.) - The line is
--
or++
(in which case it will decrement/increment the next token.) - It is a
for()
,while()
,do
,if()
, orelse
, and there is no{
- The next line starts with
[
,(
,+
,*
,/
,-
,,
,.
, or some other binary operator that can only be found between two tokens in a single expression.
Rule Details
This rule enforces consistent use of semicolons.
Options
This rule has two options, a string option and an object option.
String option:
-
"always"
(default) requires semicolons at the end of statements -
"never"
disallows semicolons as the end of statements (except to disambiguate statements beginning with[
,(
,/
,+
, or-
)
Object option (when "always"
):
-
"omitLastInOneLineBlock": true
ignores the last semicolon in a block in which its braces (and therefore the content of the block) are in the same line
Object option (when "never"
):
-
"beforeStatementContinuationChars": "any"
(default) ignores semicolons (or lacking semicolon) at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "always"
requires semicolons at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "never"
disallows semicolons as the end of statements if it doesn't make ASI hazard even if the next line starts with[
,(
,/
,+
, or-
.
always
Examples of incorrect code for this rule with the default "always"
option:
/*eslint semi: ["error", "always"]*/
var name = "ESLint"
object.method = function() {
// ...
}
Examples of correct code for this rule with the default "always"
option:
/*eslint semi: "error"*/
var name = "ESLint";
object.method = function() {
// ...
};
never
Examples of incorrect code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint";
object.method = function() {
// ...
};
Examples of correct code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint"
object.method = function() {
// ...
}
var name = "ESLint"
;(function() {
// ...
})()
import a from "a"
(function() {
// ...
})()
import b from "b"
;(function() {
// ...
})()
omitLastInOneLineBlock
Examples of additional correct code for this rule with the "always", { "omitLastInOneLineBlock": true }
options:
/*eslint semi: ["error", "always", { "omitLastInOneLineBlock": true}] */
if (foo) { bar() }
if (foo) { bar(); baz() }
beforeStatementContinuationChars
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "always" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "always"}] */
import a from "a"
(function() {
// ...
})()
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "never" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "never"}] */
import a from "a"
;(function() {
// ...
})()
When Not To Use It
If you do not want to enforce semicolon usage (or omission) in any particular way, then you can turn this rule off.
Further Reading
Related Rules
- [no-extra-semi](no-extra-semi.md)
- [no-unexpected-multiline](no-unexpected-multiline.md)
- [semi-spacing](semi-spacing.md) Source: http://eslint.org/docs/rules/
Missing semicolon. Open
}
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
require or disallow semicolons instead of ASI (semi)
JavaScript is unique amongst the C-like languages in that it doesn't require semicolons at the end of each statement. In many cases, the JavaScript engine can determine that a semicolon should be in a certain spot and will automatically add it. This feature is known as automatic semicolon insertion (ASI) and is considered one of the more controversial features of JavaScript. For example, the following lines are both valid:
var name = "ESLint"
var website = "eslint.org";
On the first line, the JavaScript engine will automatically insert a semicolon, so this is not considered a syntax error. The JavaScript engine still knows how to interpret the line and knows that the line end indicates the end of the statement.
In the debate over ASI, there are generally two schools of thought. The first is that we should treat ASI as if it didn't exist and always include semicolons manually. The rationale is that it's easier to always include semicolons than to try to remember when they are or are not required, and thus decreases the possibility of introducing an error.
However, the ASI mechanism can sometimes be tricky to people who are using semicolons. For example, consider this code:
return
{
name: "ESLint"
};
This may look like a return
statement that returns an object literal, however, the JavaScript engine will interpret this code as:
return;
{
name: "ESLint";
}
Effectively, a semicolon is inserted after the return
statement, causing the code below it (a labeled literal inside a block) to be unreachable. This rule and the [no-unreachable](no-unreachable.md) rule will protect your code from such cases.
On the other side of the argument are those who say that since semicolons are inserted automatically, they are optional and do not need to be inserted manually. However, the ASI mechanism can also be tricky to people who don't use semicolons. For example, consider this code:
var globalCounter = { }
(function () {
var n = 0
globalCounter.increment = function () {
return ++n
}
})()
In this example, a semicolon will not be inserted after the first line, causing a run-time error (because an empty object is called as if it's a function). The [no-unexpected-multiline](no-unexpected-multiline.md) rule can protect your code from such cases.
Although ASI allows for more freedom over your coding style, it can also make your code behave in an unexpected way, whether you use semicolons or not. Therefore, it is best to know when ASI takes place and when it does not, and have ESLint protect your code from these potentially unexpected cases. In short, as once described by Isaac Schlueter, a \n
character always ends a statement (just like a semicolon) unless one of the following is true:
- The statement has an unclosed paren, array literal, or object literal or ends in some other way that is not a valid way to end a statement. (For instance, ending with
.
or,
.) - The line is
--
or++
(in which case it will decrement/increment the next token.) - It is a
for()
,while()
,do
,if()
, orelse
, and there is no{
- The next line starts with
[
,(
,+
,*
,/
,-
,,
,.
, or some other binary operator that can only be found between two tokens in a single expression.
Rule Details
This rule enforces consistent use of semicolons.
Options
This rule has two options, a string option and an object option.
String option:
-
"always"
(default) requires semicolons at the end of statements -
"never"
disallows semicolons as the end of statements (except to disambiguate statements beginning with[
,(
,/
,+
, or-
)
Object option (when "always"
):
-
"omitLastInOneLineBlock": true
ignores the last semicolon in a block in which its braces (and therefore the content of the block) are in the same line
Object option (when "never"
):
-
"beforeStatementContinuationChars": "any"
(default) ignores semicolons (or lacking semicolon) at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "always"
requires semicolons at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "never"
disallows semicolons as the end of statements if it doesn't make ASI hazard even if the next line starts with[
,(
,/
,+
, or-
.
always
Examples of incorrect code for this rule with the default "always"
option:
/*eslint semi: ["error", "always"]*/
var name = "ESLint"
object.method = function() {
// ...
}
Examples of correct code for this rule with the default "always"
option:
/*eslint semi: "error"*/
var name = "ESLint";
object.method = function() {
// ...
};
never
Examples of incorrect code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint";
object.method = function() {
// ...
};
Examples of correct code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint"
object.method = function() {
// ...
}
var name = "ESLint"
;(function() {
// ...
})()
import a from "a"
(function() {
// ...
})()
import b from "b"
;(function() {
// ...
})()
omitLastInOneLineBlock
Examples of additional correct code for this rule with the "always", { "omitLastInOneLineBlock": true }
options:
/*eslint semi: ["error", "always", { "omitLastInOneLineBlock": true}] */
if (foo) { bar() }
if (foo) { bar(); baz() }
beforeStatementContinuationChars
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "always" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "always"}] */
import a from "a"
(function() {
// ...
})()
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "never" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "never"}] */
import a from "a"
;(function() {
// ...
})()
When Not To Use It
If you do not want to enforce semicolon usage (or omission) in any particular way, then you can turn this rule off.
Further Reading
Related Rules
- [no-extra-semi](no-extra-semi.md)
- [no-unexpected-multiline](no-unexpected-multiline.md)
- [semi-spacing](semi-spacing.md) Source: http://eslint.org/docs/rules/
Missing semicolon. Open
}
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
require or disallow semicolons instead of ASI (semi)
JavaScript is unique amongst the C-like languages in that it doesn't require semicolons at the end of each statement. In many cases, the JavaScript engine can determine that a semicolon should be in a certain spot and will automatically add it. This feature is known as automatic semicolon insertion (ASI) and is considered one of the more controversial features of JavaScript. For example, the following lines are both valid:
var name = "ESLint"
var website = "eslint.org";
On the first line, the JavaScript engine will automatically insert a semicolon, so this is not considered a syntax error. The JavaScript engine still knows how to interpret the line and knows that the line end indicates the end of the statement.
In the debate over ASI, there are generally two schools of thought. The first is that we should treat ASI as if it didn't exist and always include semicolons manually. The rationale is that it's easier to always include semicolons than to try to remember when they are or are not required, and thus decreases the possibility of introducing an error.
However, the ASI mechanism can sometimes be tricky to people who are using semicolons. For example, consider this code:
return
{
name: "ESLint"
};
This may look like a return
statement that returns an object literal, however, the JavaScript engine will interpret this code as:
return;
{
name: "ESLint";
}
Effectively, a semicolon is inserted after the return
statement, causing the code below it (a labeled literal inside a block) to be unreachable. This rule and the [no-unreachable](no-unreachable.md) rule will protect your code from such cases.
On the other side of the argument are those who say that since semicolons are inserted automatically, they are optional and do not need to be inserted manually. However, the ASI mechanism can also be tricky to people who don't use semicolons. For example, consider this code:
var globalCounter = { }
(function () {
var n = 0
globalCounter.increment = function () {
return ++n
}
})()
In this example, a semicolon will not be inserted after the first line, causing a run-time error (because an empty object is called as if it's a function). The [no-unexpected-multiline](no-unexpected-multiline.md) rule can protect your code from such cases.
Although ASI allows for more freedom over your coding style, it can also make your code behave in an unexpected way, whether you use semicolons or not. Therefore, it is best to know when ASI takes place and when it does not, and have ESLint protect your code from these potentially unexpected cases. In short, as once described by Isaac Schlueter, a \n
character always ends a statement (just like a semicolon) unless one of the following is true:
- The statement has an unclosed paren, array literal, or object literal or ends in some other way that is not a valid way to end a statement. (For instance, ending with
.
or,
.) - The line is
--
or++
(in which case it will decrement/increment the next token.) - It is a
for()
,while()
,do
,if()
, orelse
, and there is no{
- The next line starts with
[
,(
,+
,*
,/
,-
,,
,.
, or some other binary operator that can only be found between two tokens in a single expression.
Rule Details
This rule enforces consistent use of semicolons.
Options
This rule has two options, a string option and an object option.
String option:
-
"always"
(default) requires semicolons at the end of statements -
"never"
disallows semicolons as the end of statements (except to disambiguate statements beginning with[
,(
,/
,+
, or-
)
Object option (when "always"
):
-
"omitLastInOneLineBlock": true
ignores the last semicolon in a block in which its braces (and therefore the content of the block) are in the same line
Object option (when "never"
):
-
"beforeStatementContinuationChars": "any"
(default) ignores semicolons (or lacking semicolon) at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "always"
requires semicolons at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "never"
disallows semicolons as the end of statements if it doesn't make ASI hazard even if the next line starts with[
,(
,/
,+
, or-
.
always
Examples of incorrect code for this rule with the default "always"
option:
/*eslint semi: ["error", "always"]*/
var name = "ESLint"
object.method = function() {
// ...
}
Examples of correct code for this rule with the default "always"
option:
/*eslint semi: "error"*/
var name = "ESLint";
object.method = function() {
// ...
};
never
Examples of incorrect code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint";
object.method = function() {
// ...
};
Examples of correct code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint"
object.method = function() {
// ...
}
var name = "ESLint"
;(function() {
// ...
})()
import a from "a"
(function() {
// ...
})()
import b from "b"
;(function() {
// ...
})()
omitLastInOneLineBlock
Examples of additional correct code for this rule with the "always", { "omitLastInOneLineBlock": true }
options:
/*eslint semi: ["error", "always", { "omitLastInOneLineBlock": true}] */
if (foo) { bar() }
if (foo) { bar(); baz() }
beforeStatementContinuationChars
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "always" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "always"}] */
import a from "a"
(function() {
// ...
})()
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "never" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "never"}] */
import a from "a"
;(function() {
// ...
})()
When Not To Use It
If you do not want to enforce semicolon usage (or omission) in any particular way, then you can turn this rule off.
Further Reading
Related Rules
- [no-extra-semi](no-extra-semi.md)
- [no-unexpected-multiline](no-unexpected-multiline.md)
- [semi-spacing](semi-spacing.md) Source: http://eslint.org/docs/rules/
Unexpected string concatenation. Open
var alertDiv = $('<div class="' + cls.alert + '"><button class="close" data-dismiss="alert"><span class="pficon pficon-close"></span></button></div>');
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Suggest using template literals instead of string concatenation. (prefer-template)
In ES2015 (ES6), we can use template literals instead of string concatenation.
var str = "Hello, " + name + "!";
/*eslint-env es6*/
var str = `Hello, ${name}!`;
Rule Details
This rule is aimed to flag usage of +
operators with strings.
Examples
Examples of incorrect code for this rule:
/*eslint prefer-template: "error"*/
var str = "Hello, " + name + "!";
var str = "Time: " + (12 * 60 * 60 * 1000);
Examples of correct code for this rule:
/*eslint prefer-template: "error"*/
/*eslint-env es6*/
var str = "Hello World!";
var str = `Hello, ${name}!`;
var str = `Time: ${12 * 60 * 60 * 1000}`;
// This is reported by `no-useless-concat`.
var str = "Hello, " + "World!";
When Not To Use It
This rule should not be used in ES3/5 environments.
In ES2015 (ES6) or later, if you don't want to be notified about string concatenation, you can safely disable this rule.
Related Rules
- [no-useless-concat](no-useless-concat.md)
- [quotes](quotes.md) Source: http://eslint.org/docs/rules/
Unexpected string concatenation. Open
var iconSpan = $('<span class="' + cls.icon + '"></span>');
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Suggest using template literals instead of string concatenation. (prefer-template)
In ES2015 (ES6), we can use template literals instead of string concatenation.
var str = "Hello, " + name + "!";
/*eslint-env es6*/
var str = `Hello, ${name}!`;
Rule Details
This rule is aimed to flag usage of +
operators with strings.
Examples
Examples of incorrect code for this rule:
/*eslint prefer-template: "error"*/
var str = "Hello, " + name + "!";
var str = "Time: " + (12 * 60 * 60 * 1000);
Examples of correct code for this rule:
/*eslint prefer-template: "error"*/
/*eslint-env es6*/
var str = "Hello World!";
var str = `Hello, ${name}!`;
var str = `Time: ${12 * 60 * 60 * 1000}`;
// This is reported by `no-useless-concat`.
var str = "Hello, " + "World!";
When Not To Use It
This rule should not be used in ES3/5 environments.
In ES2015 (ES6) or later, if you don't want to be notified about string concatenation, you can safely disable this rule.
Related Rules
- [no-useless-concat](no-useless-concat.md)
- [quotes](quotes.md) Source: http://eslint.org/docs/rules/
Unexpected var, use let or const instead. Open
var textDiv = $('<div class="flash_text_div"></div>');
- Read upRead up
- Create a ticketCreate a ticket
- 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/
A space is required after '{'. Open
.css({display: 'inline-block', width: 'auto', visibility: 'hidden'})
- Read upRead up
- Create a ticketCreate a ticket
- 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 enforces 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
- [array-bracket-spacing](array-bracket-spacing.md)
- [comma-spacing](comma-spacing.md)
- [computed-property-spacing](computed-property-spacing.md)
- [space-in-parens](space-in-parens.md) Source: http://eslint.org/docs/rules/
Unexpected var, use let or const instead. Open
var viewLessTxt = __('View Less');
- Read upRead up
- Create a ticketCreate a ticket
- 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/
Missing semicolon. Open
}
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
require or disallow semicolons instead of ASI (semi)
JavaScript is unique amongst the C-like languages in that it doesn't require semicolons at the end of each statement. In many cases, the JavaScript engine can determine that a semicolon should be in a certain spot and will automatically add it. This feature is known as automatic semicolon insertion (ASI) and is considered one of the more controversial features of JavaScript. For example, the following lines are both valid:
var name = "ESLint"
var website = "eslint.org";
On the first line, the JavaScript engine will automatically insert a semicolon, so this is not considered a syntax error. The JavaScript engine still knows how to interpret the line and knows that the line end indicates the end of the statement.
In the debate over ASI, there are generally two schools of thought. The first is that we should treat ASI as if it didn't exist and always include semicolons manually. The rationale is that it's easier to always include semicolons than to try to remember when they are or are not required, and thus decreases the possibility of introducing an error.
However, the ASI mechanism can sometimes be tricky to people who are using semicolons. For example, consider this code:
return
{
name: "ESLint"
};
This may look like a return
statement that returns an object literal, however, the JavaScript engine will interpret this code as:
return;
{
name: "ESLint";
}
Effectively, a semicolon is inserted after the return
statement, causing the code below it (a labeled literal inside a block) to be unreachable. This rule and the [no-unreachable](no-unreachable.md) rule will protect your code from such cases.
On the other side of the argument are those who say that since semicolons are inserted automatically, they are optional and do not need to be inserted manually. However, the ASI mechanism can also be tricky to people who don't use semicolons. For example, consider this code:
var globalCounter = { }
(function () {
var n = 0
globalCounter.increment = function () {
return ++n
}
})()
In this example, a semicolon will not be inserted after the first line, causing a run-time error (because an empty object is called as if it's a function). The [no-unexpected-multiline](no-unexpected-multiline.md) rule can protect your code from such cases.
Although ASI allows for more freedom over your coding style, it can also make your code behave in an unexpected way, whether you use semicolons or not. Therefore, it is best to know when ASI takes place and when it does not, and have ESLint protect your code from these potentially unexpected cases. In short, as once described by Isaac Schlueter, a \n
character always ends a statement (just like a semicolon) unless one of the following is true:
- The statement has an unclosed paren, array literal, or object literal or ends in some other way that is not a valid way to end a statement. (For instance, ending with
.
or,
.) - The line is
--
or++
(in which case it will decrement/increment the next token.) - It is a
for()
,while()
,do
,if()
, orelse
, and there is no{
- The next line starts with
[
,(
,+
,*
,/
,-
,,
,.
, or some other binary operator that can only be found between two tokens in a single expression.
Rule Details
This rule enforces consistent use of semicolons.
Options
This rule has two options, a string option and an object option.
String option:
-
"always"
(default) requires semicolons at the end of statements -
"never"
disallows semicolons as the end of statements (except to disambiguate statements beginning with[
,(
,/
,+
, or-
)
Object option (when "always"
):
-
"omitLastInOneLineBlock": true
ignores the last semicolon in a block in which its braces (and therefore the content of the block) are in the same line
Object option (when "never"
):
-
"beforeStatementContinuationChars": "any"
(default) ignores semicolons (or lacking semicolon) at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "always"
requires semicolons at the end of statements if the next line starts with[
,(
,/
,+
, or-
. -
"beforeStatementContinuationChars": "never"
disallows semicolons as the end of statements if it doesn't make ASI hazard even if the next line starts with[
,(
,/
,+
, or-
.
always
Examples of incorrect code for this rule with the default "always"
option:
/*eslint semi: ["error", "always"]*/
var name = "ESLint"
object.method = function() {
// ...
}
Examples of correct code for this rule with the default "always"
option:
/*eslint semi: "error"*/
var name = "ESLint";
object.method = function() {
// ...
};
never
Examples of incorrect code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint";
object.method = function() {
// ...
};
Examples of correct code for this rule with the "never"
option:
/*eslint semi: ["error", "never"]*/
var name = "ESLint"
object.method = function() {
// ...
}
var name = "ESLint"
;(function() {
// ...
})()
import a from "a"
(function() {
// ...
})()
import b from "b"
;(function() {
// ...
})()
omitLastInOneLineBlock
Examples of additional correct code for this rule with the "always", { "omitLastInOneLineBlock": true }
options:
/*eslint semi: ["error", "always", { "omitLastInOneLineBlock": true}] */
if (foo) { bar() }
if (foo) { bar(); baz() }
beforeStatementContinuationChars
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "always" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "always"}] */
import a from "a"
(function() {
// ...
})()
Examples of additional incorrect code for this rule with the "never", { "beforeStatementContinuationChars": "never" }
options:
/*eslint semi: ["error", "never", { "beforeStatementContinuationChars": "never"}] */
import a from "a"
;(function() {
// ...
})()
When Not To Use It
If you do not want to enforce semicolon usage (or omission) in any particular way, then you can turn this rule off.
Further Reading
Related Rules
- [no-extra-semi](no-extra-semi.md)
- [no-unexpected-multiline](no-unexpected-multiline.md)
- [semi-spacing](semi-spacing.md) Source: http://eslint.org/docs/rules/
'_miqFlashSave' is not defined. Open
_miqFlashSave([]);
- Read upRead up
- Create a ticketCreate a ticket
- 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, or specified in the globals
key in the configuration file. A common use case for these is if you intentionally use globals that are defined elsewhere (e.g. in a script sourced from HTML).
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](../user-guide/configuring.md#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.js
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/
'_miqFlashLoad' is not defined. Open
var ary = _miqFlashLoad();
- Read upRead up
- Create a ticketCreate a ticket
- 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, or specified in the globals
key in the configuration file. A common use case for these is if you intentionally use globals that are defined elsewhere (e.g. in a script sourced from HTML).
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](../user-guide/configuring.md#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.js
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/
'miqFlashClearSaved' is not defined. Open
miqFlashClearSaved();
- Read upRead up
- Create a ticketCreate a ticket
- 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, or specified in the globals
key in the configuration file. A common use case for these is if you intentionally use globals that are defined elsewhere (e.g. in a script sourced from HTML).
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](../user-guide/configuring.md#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.js
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/
'miqScrollTop' is not defined. Open
miqScrollTop();
- Read upRead up
- Create a ticketCreate a ticket
- 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, or specified in the globals
key in the configuration file. A common use case for these is if you intentionally use globals that are defined elsewhere (e.g. in a script sourced from HTML).
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](../user-guide/configuring.md#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.js
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/
'detailsLink' used outside of binding context. Open
detailsLink.hide();
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Treat var as Block Scoped (block-scoped-var)
The block-scoped-var
rule generates warnings when variables are used outside of the block in which they were defined. This emulates C-style block scope.
Rule Details
This rule aims to reduce the usage of variables outside of their binding context and emulate traditional block scope from other languages. This is to help newcomers to the language avoid difficult bugs with variable hoisting.
Examples of incorrect code for this rule:
/*eslint block-scoped-var: "error"*/
function doIf() {
if (true) {
var build = true;
}
console.log(build);
}
function doIfElse() {
if (true) {
var build = true;
} else {
var build = false;
}
}
function doTryCatch() {
try {
var build = 1;
} catch (e) {
var f = build;
}
}
Examples of correct code for this rule:
/*eslint block-scoped-var: "error"*/
function doIf() {
var build;
if (true) {
build = true;
}
console.log(build);
}
function doIfElse() {
var build;
if (true) {
build = true;
} else {
build = false;
}
}
function doTryCatch() {
var build;
var f;
try {
build = 1;
} catch (e) {
f = build;
}
}
Further Reading
Multiple spaces found before '// miqFlash co...'. Open
case 'warn': // miqFlash compatibility
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Disallow multiple spaces (no-multi-spaces)
Multiple spaces in a row that are not used for indentation are typically mistakes. For example:
if(foo === "bar") {}
It's hard to tell, but there are two spaces between foo
and ===
. Multiple spaces such as this are generally frowned upon in favor of single spaces:
if(foo === "bar") {}
Rule Details
This rule aims to disallow multiple whitespace around logical expressions, conditional expressions, declarations, array elements, object properties, sequences and function parameters.
Examples of incorrect code for this rule:
/*eslint no-multi-spaces: "error"*/
var a = 1;
if(foo === "bar") {}
a << b
var arr = [1, 2];
a ? b: c
Examples of correct code for this rule:
/*eslint no-multi-spaces: "error"*/
var a = 1;
if(foo === "bar") {}
a << b
var arr = [1, 2];
a ? b: c
Options
This rule's configuration consists of an object with the following properties:
-
"ignoreEOLComments": true
(defaults tofalse
) ignores multiple spaces before comments that occur at the end of lines -
"exceptions": { "Property": true }
("Property"
is the only node specified by default) specifies nodes to ignore
ignoreEOLComments
Examples of incorrect code for this rule with the { "ignoreEOLComments": false }
(default) option:
/*eslint no-multi-spaces: ["error", { ignoreEOLComments: false }]*/
var x = 5; // comment
var x = 5; /* multiline
* comment
*/
Examples of correct code for this rule with the { "ignoreEOLComments": false }
(default) option:
/*eslint no-multi-spaces: ["error", { ignoreEOLComments: false }]*/
var x = 5; // comment
var x = 5; /* multiline
* comment
*/
Examples of correct code for this rule with the { "ignoreEOLComments": true }
option:
/*eslint no-multi-spaces: ["error", { ignoreEOLComments: true }]*/
var x = 5; // comment
var x = 5; // comment
var x = 5; /* multiline
* comment
*/
var x = 5; /* multiline
* comment
*/
exceptions
To avoid contradictions with other rules that require multiple spaces, this rule has an exceptions
option to ignore certain nodes.
This option is an object that expects property names to be AST node types as defined by ESTree. The easiest way to determine the node types for exceptions
is to use the online demo.
Only the Property
node type is ignored by default, because for the [key-spacing](key-spacing.md) rule some alignment options require multiple spaces in properties of object literals.
Examples of correct code for the default "exceptions": { "Property": true }
option:
/*eslint no-multi-spaces: "error"*/
/*eslint key-spacing: ["error", { align: "value" }]*/
var obj = {
first: "first",
second: "second"
};
Examples of incorrect code for the "exceptions": { "Property": false }
option:
/*eslint no-multi-spaces: ["error", { exceptions: { "Property": false } }]*/
/*eslint key-spacing: ["error", { align: "value" }]*/
var obj = {
first: "first",
second: "second"
};
Examples of correct code for the "exceptions": { "BinaryExpression": true }
option:
/*eslint no-multi-spaces: ["error", { exceptions: { "BinaryExpression": true } }]*/
var a = 1 * 2;
Examples of correct code for the "exceptions": { "VariableDeclarator": true }
option:
/*eslint no-multi-spaces: ["error", { exceptions: { "VariableDeclarator": true } }]*/
var someVar = 'foo';
var someOtherVar = 'barBaz';
Examples of correct code for the "exceptions": { "ImportDeclaration": true }
option:
/*eslint no-multi-spaces: ["error", { exceptions: { "ImportDeclaration": true } }]*/
import mod from 'mod';
import someOtherMod from 'some-other-mod';
When Not To Use It
If you don't want to check and disallow multiple spaces, then you should turn this rule off.
Related Rules
- [key-spacing](key-spacing.md)
- [space-infix-ops](space-infix-ops.md)
- [space-in-brackets](space-in-brackets.md) (deprecated)
- [space-in-parens](space-in-parens.md)
- [space-after-keywords](space-after-keywords.md)
- [space-unary-ops](space-unary-ops.md)
- [space-return-throw-case](space-return-throw-case.md) Source: http://eslint.org/docs/rules/
'_miqFlashSave' is not defined. Open
_miqFlashSave(ary);
- Read upRead up
- Create a ticketCreate a ticket
- 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, or specified in the globals
key in the configuration file. A common use case for these is if you intentionally use globals that are defined elsewhere (e.g. in a script sourced from HTML).
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](../user-guide/configuring.md#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.js
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/
'_miqFlashLoad' is not defined. Open
var ary = _miqFlashLoad();
- Read upRead up
- Create a ticketCreate a ticket
- 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, or specified in the globals
key in the configuration file. A common use case for these is if you intentionally use globals that are defined elsewhere (e.g. in a script sourced from HTML).
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](../user-guide/configuring.md#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.js
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/
'expandAlert' is not defined. Open
expandAlert(params);
- Read upRead up
- Create a ticketCreate a ticket
- 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, or specified in the globals
key in the configuration file. A common use case for these is if you intentionally use globals that are defined elsewhere (e.g. in a script sourced from HTML).
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](../user-guide/configuring.md#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.js
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/
'checkElipsis' is not defined. Open
if ( options.long_alert && !checkElipsis(alertDiv) ) {
- Read upRead up
- Create a ticketCreate a ticket
- 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, or specified in the globals
key in the configuration file. A common use case for these is if you intentionally use globals that are defined elsewhere (e.g. in a script sourced from HTML).
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](../user-guide/configuring.md#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.js
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/
Similar blocks of code found in 2 locations. Consider refactoring. Open
if (!params.clicked) {
params.clicked = true;
params.alert_elem.removeClass('text-overflow-pf');
params.alert_elem.addClass('text-vertical-overflow-pf');
params.link.find('a').text(viewLessTxt);
- Read upRead up
- Create a ticketCreate a ticket
Duplicated Code
Duplicated code can lead to software that is hard to understand and difficult to change. The Don't Repeat Yourself (DRY) principle states:
Every piece of knowledge must have a single, unambiguous, authoritative representation within a system.
When you violate DRY, bugs and maintenance problems are sure to follow. Duplicated code has a tendency to both continue to replicate and also to diverge (leaving bugs as two similar implementations differ in subtle ways).
Tuning
This issue has a mass of 67.
We set useful threshold defaults for the languages we support but you may want to adjust these settings based on your project guidelines.
The threshold configuration represents the minimum mass a code block must have to be analyzed for duplication. The lower the threshold, the more fine-grained the comparison.
If the engine is too easily reporting duplication, try raising the threshold. If you suspect that the engine isn't catching enough duplication, try lowering the threshold. The best setting tends to differ from language to language.
See codeclimate-duplication
's documentation for more information about tuning the mass threshold in your .codeclimate.yml
.
Refactorings
- Extract Method
- Extract Class
- Form Template Method
- Introduce Null Object
- Pull Up Method
- Pull Up Field
- Substitute Algorithm
Further Reading
- Don't Repeat Yourself on the C2 Wiki
- Duplicated Code on SourceMaking
- Refactoring: Improving the Design of Existing Code by Martin Fowler. Duplicated Code, p76
Similar blocks of code found in 2 locations. Consider refactoring. Open
} else {
params.clicked = false;
params.alert_elem.removeClass('text-vertical-overflow-pf');
params.alert_elem.addClass('text-overflow-pf');
params.link.find('a').text(viewMoreTxt);
- Read upRead up
- Create a ticketCreate a ticket
Duplicated Code
Duplicated code can lead to software that is hard to understand and difficult to change. The Don't Repeat Yourself (DRY) principle states:
Every piece of knowledge must have a single, unambiguous, authoritative representation within a system.
When you violate DRY, bugs and maintenance problems are sure to follow. Duplicated code has a tendency to both continue to replicate and also to diverge (leaving bugs as two similar implementations differ in subtle ways).
Tuning
This issue has a mass of 67.
We set useful threshold defaults for the languages we support but you may want to adjust these settings based on your project guidelines.
The threshold configuration represents the minimum mass a code block must have to be analyzed for duplication. The lower the threshold, the more fine-grained the comparison.
If the engine is too easily reporting duplication, try raising the threshold. If you suspect that the engine isn't catching enough duplication, try lowering the threshold. The best setting tends to differ from language to language.
See codeclimate-duplication
's documentation for more information about tuning the mass threshold in your .codeclimate.yml
.
Refactorings
- Extract Method
- Extract Class
- Form Template Method
- Introduce Null Object
- Pull Up Method
- Pull Up Field
- Substitute Algorithm
Further Reading
- Don't Repeat Yourself on the C2 Wiki
- Duplicated Code on SourceMaking
- Refactoring: Improving the Design of Existing Code by Martin Fowler. Duplicated Code, p76