Function verifyPhone
has 94 lines of code (exceeds 25 allowed). Consider refactoring. Open
function verifyPhone(redisKeyId, phone, country, pin, cbk) {
if (!_settings.phoneVerification) {
return cbk(null, true);
}
Avoid deeply nested control flow statements. Open
if (err) {
return cbk(err);
}
Avoid deeply nested control flow statements. Open
if (err) return cbk(err);
Function verifyPhone
has 5 arguments (exceeds 4 allowed). Consider refactoring. Open
function verifyPhone(redisKeyId, phone, country, pin, cbk) {
Expected to return a value at the end of function. Open
countries.countryFromIso(country, function (err, returnedCountry) {
- Read upRead up
- Exclude checks
require return
statements to either always or never specify values (consistent-return)
Unlike statically-typed languages which enforce that a function returns a specified type of value, JavaScript allows different code paths in a function to return different types of values.
A confusing aspect of JavaScript is that a function returns undefined
if any of the following are true:
- it does not execute a
return
statement before it exits - it executes
return
which does not specify a value explicitly - it executes
return undefined
- it executes
return void
followed by an expression (for example, a function call) - it executes
return
followed by any other expression which evaluates toundefined
If any code paths in a function return a value explicitly but some code path do not return a value explicitly, it might be a typing mistake, especially in a large function. In the following example:
- a code path through the function returns a Boolean value
true
- another code path does not return a value explicitly, therefore returns
undefined
implicitly
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
Rule Details
This rule requires return
statements to either always or never specify values. This rule ignores function definitions where the name begins with an uppercase letter, because constructors (when invoked with the new
operator) return the instantiated object implicitly if they do not return another object explicitly.
Examples of incorrect code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
function doSomething(condition) {
if (condition) {
return true;
}
}
Examples of correct code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return false;
}
}
function Foo() {
if (!(this instanceof Foo)) {
return new Foo();
}
this.a = 0;
}
Options
This rule has an object option:
-
"treatUndefinedAsUnspecified": false
(default) always either specify values or returnundefined
implicitly only. -
"treatUndefinedAsUnspecified": true
always either specify values or returnundefined
explicitly or implicitly.
treatUndefinedAsUnspecified
Examples of incorrect code for this rule with the default { "treatUndefinedAsUnspecified": false }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": false }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
Examples of incorrect code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
return true;
}
function bar(condition) {
if (condition) {
return undefined;
}
return true;
}
Examples of correct code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
When Not To Use It
If you want to allow functions to have different return
behavior depending on code branching, then it is safe to disable this rule.
Source: http://eslint.org/docs/rules/
Expected to return a value at the end of function. Open
redisMng.getKeyValue(`${redisKey}.attempts`, function (err, redisPinAttempts) {
- Read upRead up
- Exclude checks
require return
statements to either always or never specify values (consistent-return)
Unlike statically-typed languages which enforce that a function returns a specified type of value, JavaScript allows different code paths in a function to return different types of values.
A confusing aspect of JavaScript is that a function returns undefined
if any of the following are true:
- it does not execute a
return
statement before it exits - it executes
return
which does not specify a value explicitly - it executes
return undefined
- it executes
return void
followed by an expression (for example, a function call) - it executes
return
followed by any other expression which evaluates toundefined
If any code paths in a function return a value explicitly but some code path do not return a value explicitly, it might be a typing mistake, especially in a large function. In the following example:
- a code path through the function returns a Boolean value
true
- another code path does not return a value explicitly, therefore returns
undefined
implicitly
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
Rule Details
This rule requires return
statements to either always or never specify values. This rule ignores function definitions where the name begins with an uppercase letter, because constructors (when invoked with the new
operator) return the instantiated object implicitly if they do not return another object explicitly.
Examples of incorrect code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
function doSomething(condition) {
if (condition) {
return true;
}
}
Examples of correct code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return false;
}
}
function Foo() {
if (!(this instanceof Foo)) {
return new Foo();
}
this.a = 0;
}
Options
This rule has an object option:
-
"treatUndefinedAsUnspecified": false
(default) always either specify values or returnundefined
implicitly only. -
"treatUndefinedAsUnspecified": true
always either specify values or returnundefined
explicitly or implicitly.
treatUndefinedAsUnspecified
Examples of incorrect code for this rule with the default { "treatUndefinedAsUnspecified": false }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": false }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
Examples of incorrect code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
return true;
}
function bar(condition) {
if (condition) {
return undefined;
}
return true;
}
Examples of correct code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
When Not To Use It
If you want to allow functions to have different return
behavior depending on code branching, then it is safe to disable this rule.
Source: http://eslint.org/docs/rules/
'pin' is already declared in the upper scope. Open
redisMng.insertKeyValue(`${redisKey}.pin`, pin, expires, function (err, pin) {
- Read upRead up
- Exclude checks
disallow variable declarations from shadowing variables declared in the outer scope (no-shadow)
Shadowing is the process by which a local variable shares the same name as a variable in its containing scope. For example:
var a = 3;
function b() {
var a = 10;
}
In this case, the variable a
inside of b()
is shadowing the variable a
in the global scope. This can cause confusion while reading the code and it's impossible to access the global variable.
Rule Details
This rule aims to eliminate shadowed variable declarations.
Examples of incorrect code for this rule:
/*eslint no-shadow: "error"*/
/*eslint-env es6*/
var a = 3;
function b() {
var a = 10;
}
var b = function () {
var a = 10;
}
function b(a) {
a = 10;
}
b(a);
if (true) {
let a = 5;
}
Options
This rule takes one option, an object, with properties "builtinGlobals"
, "hoist"
and "allow"
.
{
"no-shadow": ["error", { "builtinGlobals": false, "hoist": "functions", "allow": [] }]
}
builtinGlobals
The builtinGlobals
option is false
by default.
If it is true
, the rule prevents shadowing of built-in global variables: Object
, Array
, Number
, and so on.
Examples of incorrect code for the { "builtinGlobals": true }
option:
/*eslint no-shadow: ["error", { "builtinGlobals": true }]*/
function foo() {
var Object = 0;
}
hoist
The hoist
option has three settings:
-
functions
(by default) - reports shadowing before the outer functions are defined. -
all
- reports all shadowing before the outer variables/functions are defined. -
never
- never report shadowing before the outer variables/functions are defined.
hoist: functions
Examples of incorrect code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let b = 6;
}
function b() {}
Although let b
in the if
statement is before the function declaration in the outer scope, it is incorrect.
Examples of correct code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
}
let a = 5;
Because let a
in the if
statement is before the variable declaration in the outer scope, it is correct.
hoist: all
Examples of incorrect code for the { "hoist": "all" }
option:
/*eslint no-shadow: ["error", { "hoist": "all" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
hoist: never
Examples of correct code for the { "hoist": "never" }
option:
/*eslint no-shadow: ["error", { "hoist": "never" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
Because let a
and let b
in the if
statement are before the declarations in the outer scope, they are correct.
allow
The allow
option is an array of identifier names for which shadowing is allowed. For example, "resolve"
, "reject"
, "done"
, "cb"
.
Examples of correct code for the { "allow": ["done"] }
option:
/*eslint no-shadow: ["error", { "allow": ["done"] }]*/
/*eslint-env es6*/
import async from 'async';
function foo(done) {
async.map([1, 2], function (e, done) {
done(null, e * 2)
}, done);
}
foo(function (err, result) {
console.log({ err, result });
});
Further Reading
Related Rules
- [no-shadow-restricted-names](no-shadow-restricted-names.md) Source: http://eslint.org/docs/rules/
'err' is already declared in the upper scope. Open
redisMng.insertKeyValue(`${redisKey}.attempts`, pinAttempts, expires, function (err) {
- Read upRead up
- Exclude checks
disallow variable declarations from shadowing variables declared in the outer scope (no-shadow)
Shadowing is the process by which a local variable shares the same name as a variable in its containing scope. For example:
var a = 3;
function b() {
var a = 10;
}
In this case, the variable a
inside of b()
is shadowing the variable a
in the global scope. This can cause confusion while reading the code and it's impossible to access the global variable.
Rule Details
This rule aims to eliminate shadowed variable declarations.
Examples of incorrect code for this rule:
/*eslint no-shadow: "error"*/
/*eslint-env es6*/
var a = 3;
function b() {
var a = 10;
}
var b = function () {
var a = 10;
}
function b(a) {
a = 10;
}
b(a);
if (true) {
let a = 5;
}
Options
This rule takes one option, an object, with properties "builtinGlobals"
, "hoist"
and "allow"
.
{
"no-shadow": ["error", { "builtinGlobals": false, "hoist": "functions", "allow": [] }]
}
builtinGlobals
The builtinGlobals
option is false
by default.
If it is true
, the rule prevents shadowing of built-in global variables: Object
, Array
, Number
, and so on.
Examples of incorrect code for the { "builtinGlobals": true }
option:
/*eslint no-shadow: ["error", { "builtinGlobals": true }]*/
function foo() {
var Object = 0;
}
hoist
The hoist
option has three settings:
-
functions
(by default) - reports shadowing before the outer functions are defined. -
all
- reports all shadowing before the outer variables/functions are defined. -
never
- never report shadowing before the outer variables/functions are defined.
hoist: functions
Examples of incorrect code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let b = 6;
}
function b() {}
Although let b
in the if
statement is before the function declaration in the outer scope, it is incorrect.
Examples of correct code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
}
let a = 5;
Because let a
in the if
statement is before the variable declaration in the outer scope, it is correct.
hoist: all
Examples of incorrect code for the { "hoist": "all" }
option:
/*eslint no-shadow: ["error", { "hoist": "all" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
hoist: never
Examples of correct code for the { "hoist": "never" }
option:
/*eslint no-shadow: ["error", { "hoist": "never" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
Because let a
and let b
in the if
statement are before the declarations in the outer scope, they are correct.
allow
The allow
option is an array of identifier names for which shadowing is allowed. For example, "resolve"
, "reject"
, "done"
, "cb"
.
Examples of correct code for the { "allow": ["done"] }
option:
/*eslint no-shadow: ["error", { "allow": ["done"] }]*/
/*eslint-env es6*/
import async from 'async';
function foo(done) {
async.map([1, 2], function (e, done) {
done(null, e * 2)
}, done);
}
foo(function (err, result) {
console.log({ err, result });
});
Further Reading
Related Rules
- [no-shadow-restricted-names](no-shadow-restricted-names.md) Source: http://eslint.org/docs/rules/
Expected to return a value at the end of function. Open
redisMng.getKeyValue(`${redisKey}.pin`, function (err, redisPhonePin) {
- Read upRead up
- Exclude checks
require return
statements to either always or never specify values (consistent-return)
Unlike statically-typed languages which enforce that a function returns a specified type of value, JavaScript allows different code paths in a function to return different types of values.
A confusing aspect of JavaScript is that a function returns undefined
if any of the following are true:
- it does not execute a
return
statement before it exits - it executes
return
which does not specify a value explicitly - it executes
return undefined
- it executes
return void
followed by an expression (for example, a function call) - it executes
return
followed by any other expression which evaluates toundefined
If any code paths in a function return a value explicitly but some code path do not return a value explicitly, it might be a typing mistake, especially in a large function. In the following example:
- a code path through the function returns a Boolean value
true
- another code path does not return a value explicitly, therefore returns
undefined
implicitly
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
Rule Details
This rule requires return
statements to either always or never specify values. This rule ignores function definitions where the name begins with an uppercase letter, because constructors (when invoked with the new
operator) return the instantiated object implicitly if they do not return another object explicitly.
Examples of incorrect code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
function doSomething(condition) {
if (condition) {
return true;
}
}
Examples of correct code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return false;
}
}
function Foo() {
if (!(this instanceof Foo)) {
return new Foo();
}
this.a = 0;
}
Options
This rule has an object option:
-
"treatUndefinedAsUnspecified": false
(default) always either specify values or returnundefined
implicitly only. -
"treatUndefinedAsUnspecified": true
always either specify values or returnundefined
explicitly or implicitly.
treatUndefinedAsUnspecified
Examples of incorrect code for this rule with the default { "treatUndefinedAsUnspecified": false }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": false }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
Examples of incorrect code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
return true;
}
function bar(condition) {
if (condition) {
return undefined;
}
return true;
}
Examples of correct code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
When Not To Use It
If you want to allow functions to have different return
behavior depending on code branching, then it is safe to disable this rule.
Source: http://eslint.org/docs/rules/
'err' is already declared in the upper scope. Open
createPIN(redisKeyId, formattedPhone, function (err) {
- Read upRead up
- Exclude checks
disallow variable declarations from shadowing variables declared in the outer scope (no-shadow)
Shadowing is the process by which a local variable shares the same name as a variable in its containing scope. For example:
var a = 3;
function b() {
var a = 10;
}
In this case, the variable a
inside of b()
is shadowing the variable a
in the global scope. This can cause confusion while reading the code and it's impossible to access the global variable.
Rule Details
This rule aims to eliminate shadowed variable declarations.
Examples of incorrect code for this rule:
/*eslint no-shadow: "error"*/
/*eslint-env es6*/
var a = 3;
function b() {
var a = 10;
}
var b = function () {
var a = 10;
}
function b(a) {
a = 10;
}
b(a);
if (true) {
let a = 5;
}
Options
This rule takes one option, an object, with properties "builtinGlobals"
, "hoist"
and "allow"
.
{
"no-shadow": ["error", { "builtinGlobals": false, "hoist": "functions", "allow": [] }]
}
builtinGlobals
The builtinGlobals
option is false
by default.
If it is true
, the rule prevents shadowing of built-in global variables: Object
, Array
, Number
, and so on.
Examples of incorrect code for the { "builtinGlobals": true }
option:
/*eslint no-shadow: ["error", { "builtinGlobals": true }]*/
function foo() {
var Object = 0;
}
hoist
The hoist
option has three settings:
-
functions
(by default) - reports shadowing before the outer functions are defined. -
all
- reports all shadowing before the outer variables/functions are defined. -
never
- never report shadowing before the outer variables/functions are defined.
hoist: functions
Examples of incorrect code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let b = 6;
}
function b() {}
Although let b
in the if
statement is before the function declaration in the outer scope, it is incorrect.
Examples of correct code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
}
let a = 5;
Because let a
in the if
statement is before the variable declaration in the outer scope, it is correct.
hoist: all
Examples of incorrect code for the { "hoist": "all" }
option:
/*eslint no-shadow: ["error", { "hoist": "all" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
hoist: never
Examples of correct code for the { "hoist": "never" }
option:
/*eslint no-shadow: ["error", { "hoist": "never" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
Because let a
and let b
in the if
statement are before the declarations in the outer scope, they are correct.
allow
The allow
option is an array of identifier names for which shadowing is allowed. For example, "resolve"
, "reject"
, "done"
, "cb"
.
Examples of correct code for the { "allow": ["done"] }
option:
/*eslint no-shadow: ["error", { "allow": ["done"] }]*/
/*eslint-env es6*/
import async from 'async';
function foo(done) {
async.map([1, 2], function (e, done) {
done(null, e * 2)
}, done);
}
foo(function (err, result) {
console.log({ err, result });
});
Further Reading
Related Rules
- [no-shadow-restricted-names](no-shadow-restricted-names.md) Source: http://eslint.org/docs/rules/
Expected to return a value at the end of function. Open
redisMng.insertKeyValue(`${redisKey}.pin`, pin, expires, function (err, pin) {
- Read upRead up
- Exclude checks
require return
statements to either always or never specify values (consistent-return)
Unlike statically-typed languages which enforce that a function returns a specified type of value, JavaScript allows different code paths in a function to return different types of values.
A confusing aspect of JavaScript is that a function returns undefined
if any of the following are true:
- it does not execute a
return
statement before it exits - it executes
return
which does not specify a value explicitly - it executes
return undefined
- it executes
return void
followed by an expression (for example, a function call) - it executes
return
followed by any other expression which evaluates toundefined
If any code paths in a function return a value explicitly but some code path do not return a value explicitly, it might be a typing mistake, especially in a large function. In the following example:
- a code path through the function returns a Boolean value
true
- another code path does not return a value explicitly, therefore returns
undefined
implicitly
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
Rule Details
This rule requires return
statements to either always or never specify values. This rule ignores function definitions where the name begins with an uppercase letter, because constructors (when invoked with the new
operator) return the instantiated object implicitly if they do not return another object explicitly.
Examples of incorrect code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
function doSomething(condition) {
if (condition) {
return true;
}
}
Examples of correct code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return false;
}
}
function Foo() {
if (!(this instanceof Foo)) {
return new Foo();
}
this.a = 0;
}
Options
This rule has an object option:
-
"treatUndefinedAsUnspecified": false
(default) always either specify values or returnundefined
implicitly only. -
"treatUndefinedAsUnspecified": true
always either specify values or returnundefined
explicitly or implicitly.
treatUndefinedAsUnspecified
Examples of incorrect code for this rule with the default { "treatUndefinedAsUnspecified": false }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": false }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
Examples of incorrect code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
return true;
}
function bar(condition) {
if (condition) {
return undefined;
}
return true;
}
Examples of correct code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
When Not To Use It
If you want to allow functions to have different return
behavior depending on code branching, then it is safe to disable this rule.
Source: http://eslint.org/docs/rules/
Expected to return a value at the end of function. Open
redisMng.insertKeyValue(`${redisKey}.attempts`, pinAttempts, expires, function (err) {
- Read upRead up
- Exclude checks
require return
statements to either always or never specify values (consistent-return)
Unlike statically-typed languages which enforce that a function returns a specified type of value, JavaScript allows different code paths in a function to return different types of values.
A confusing aspect of JavaScript is that a function returns undefined
if any of the following are true:
- it does not execute a
return
statement before it exits - it executes
return
which does not specify a value explicitly - it executes
return undefined
- it executes
return void
followed by an expression (for example, a function call) - it executes
return
followed by any other expression which evaluates toundefined
If any code paths in a function return a value explicitly but some code path do not return a value explicitly, it might be a typing mistake, especially in a large function. In the following example:
- a code path through the function returns a Boolean value
true
- another code path does not return a value explicitly, therefore returns
undefined
implicitly
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
Rule Details
This rule requires return
statements to either always or never specify values. This rule ignores function definitions where the name begins with an uppercase letter, because constructors (when invoked with the new
operator) return the instantiated object implicitly if they do not return another object explicitly.
Examples of incorrect code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
function doSomething(condition) {
if (condition) {
return true;
}
}
Examples of correct code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return false;
}
}
function Foo() {
if (!(this instanceof Foo)) {
return new Foo();
}
this.a = 0;
}
Options
This rule has an object option:
-
"treatUndefinedAsUnspecified": false
(default) always either specify values or returnundefined
implicitly only. -
"treatUndefinedAsUnspecified": true
always either specify values or returnundefined
explicitly or implicitly.
treatUndefinedAsUnspecified
Examples of incorrect code for this rule with the default { "treatUndefinedAsUnspecified": false }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": false }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
Examples of incorrect code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
return true;
}
function bar(condition) {
if (condition) {
return undefined;
}
return true;
}
Examples of correct code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
When Not To Use It
If you want to allow functions to have different return
behavior depending on code branching, then it is safe to disable this rule.
Source: http://eslint.org/docs/rules/
'err' is already declared in the upper scope. Open
createPIN(redisKeyId, formattedPhone, function (err) {
- Read upRead up
- Exclude checks
disallow variable declarations from shadowing variables declared in the outer scope (no-shadow)
Shadowing is the process by which a local variable shares the same name as a variable in its containing scope. For example:
var a = 3;
function b() {
var a = 10;
}
In this case, the variable a
inside of b()
is shadowing the variable a
in the global scope. This can cause confusion while reading the code and it's impossible to access the global variable.
Rule Details
This rule aims to eliminate shadowed variable declarations.
Examples of incorrect code for this rule:
/*eslint no-shadow: "error"*/
/*eslint-env es6*/
var a = 3;
function b() {
var a = 10;
}
var b = function () {
var a = 10;
}
function b(a) {
a = 10;
}
b(a);
if (true) {
let a = 5;
}
Options
This rule takes one option, an object, with properties "builtinGlobals"
, "hoist"
and "allow"
.
{
"no-shadow": ["error", { "builtinGlobals": false, "hoist": "functions", "allow": [] }]
}
builtinGlobals
The builtinGlobals
option is false
by default.
If it is true
, the rule prevents shadowing of built-in global variables: Object
, Array
, Number
, and so on.
Examples of incorrect code for the { "builtinGlobals": true }
option:
/*eslint no-shadow: ["error", { "builtinGlobals": true }]*/
function foo() {
var Object = 0;
}
hoist
The hoist
option has three settings:
-
functions
(by default) - reports shadowing before the outer functions are defined. -
all
- reports all shadowing before the outer variables/functions are defined. -
never
- never report shadowing before the outer variables/functions are defined.
hoist: functions
Examples of incorrect code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let b = 6;
}
function b() {}
Although let b
in the if
statement is before the function declaration in the outer scope, it is incorrect.
Examples of correct code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
}
let a = 5;
Because let a
in the if
statement is before the variable declaration in the outer scope, it is correct.
hoist: all
Examples of incorrect code for the { "hoist": "all" }
option:
/*eslint no-shadow: ["error", { "hoist": "all" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
hoist: never
Examples of correct code for the { "hoist": "never" }
option:
/*eslint no-shadow: ["error", { "hoist": "never" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
Because let a
and let b
in the if
statement are before the declarations in the outer scope, they are correct.
allow
The allow
option is an array of identifier names for which shadowing is allowed. For example, "resolve"
, "reject"
, "done"
, "cb"
.
Examples of correct code for the { "allow": ["done"] }
option:
/*eslint no-shadow: ["error", { "allow": ["done"] }]*/
/*eslint-env es6*/
import async from 'async';
function foo(done) {
async.map([1, 2], function (e, done) {
done(null, e * 2)
}, done);
}
foo(function (err, result) {
console.log({ err, result });
});
Further Reading
Related Rules
- [no-shadow-restricted-names](no-shadow-restricted-names.md) Source: http://eslint.org/docs/rules/
'err' is already declared in the upper scope. Open
redisMng.getKeyValue(`${redisKey}.attempts`, function (err, redisPinAttempts) {
- Read upRead up
- Exclude checks
disallow variable declarations from shadowing variables declared in the outer scope (no-shadow)
Shadowing is the process by which a local variable shares the same name as a variable in its containing scope. For example:
var a = 3;
function b() {
var a = 10;
}
In this case, the variable a
inside of b()
is shadowing the variable a
in the global scope. This can cause confusion while reading the code and it's impossible to access the global variable.
Rule Details
This rule aims to eliminate shadowed variable declarations.
Examples of incorrect code for this rule:
/*eslint no-shadow: "error"*/
/*eslint-env es6*/
var a = 3;
function b() {
var a = 10;
}
var b = function () {
var a = 10;
}
function b(a) {
a = 10;
}
b(a);
if (true) {
let a = 5;
}
Options
This rule takes one option, an object, with properties "builtinGlobals"
, "hoist"
and "allow"
.
{
"no-shadow": ["error", { "builtinGlobals": false, "hoist": "functions", "allow": [] }]
}
builtinGlobals
The builtinGlobals
option is false
by default.
If it is true
, the rule prevents shadowing of built-in global variables: Object
, Array
, Number
, and so on.
Examples of incorrect code for the { "builtinGlobals": true }
option:
/*eslint no-shadow: ["error", { "builtinGlobals": true }]*/
function foo() {
var Object = 0;
}
hoist
The hoist
option has three settings:
-
functions
(by default) - reports shadowing before the outer functions are defined. -
all
- reports all shadowing before the outer variables/functions are defined. -
never
- never report shadowing before the outer variables/functions are defined.
hoist: functions
Examples of incorrect code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let b = 6;
}
function b() {}
Although let b
in the if
statement is before the function declaration in the outer scope, it is incorrect.
Examples of correct code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
}
let a = 5;
Because let a
in the if
statement is before the variable declaration in the outer scope, it is correct.
hoist: all
Examples of incorrect code for the { "hoist": "all" }
option:
/*eslint no-shadow: ["error", { "hoist": "all" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
hoist: never
Examples of correct code for the { "hoist": "never" }
option:
/*eslint no-shadow: ["error", { "hoist": "never" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
Because let a
and let b
in the if
statement are before the declarations in the outer scope, they are correct.
allow
The allow
option is an array of identifier names for which shadowing is allowed. For example, "resolve"
, "reject"
, "done"
, "cb"
.
Examples of correct code for the { "allow": ["done"] }
option:
/*eslint no-shadow: ["error", { "allow": ["done"] }]*/
/*eslint-env es6*/
import async from 'async';
function foo(done) {
async.map([1, 2], function (e, done) {
done(null, e * 2)
}, done);
}
foo(function (err, result) {
console.log({ err, result });
});
Further Reading
Related Rules
- [no-shadow-restricted-names](no-shadow-restricted-names.md) Source: http://eslint.org/docs/rules/
'err' is already declared in the upper scope. Open
createPIN(redisKeyId, formattedPhone, function (err) {
- Read upRead up
- Exclude checks
disallow variable declarations from shadowing variables declared in the outer scope (no-shadow)
Shadowing is the process by which a local variable shares the same name as a variable in its containing scope. For example:
var a = 3;
function b() {
var a = 10;
}
In this case, the variable a
inside of b()
is shadowing the variable a
in the global scope. This can cause confusion while reading the code and it's impossible to access the global variable.
Rule Details
This rule aims to eliminate shadowed variable declarations.
Examples of incorrect code for this rule:
/*eslint no-shadow: "error"*/
/*eslint-env es6*/
var a = 3;
function b() {
var a = 10;
}
var b = function () {
var a = 10;
}
function b(a) {
a = 10;
}
b(a);
if (true) {
let a = 5;
}
Options
This rule takes one option, an object, with properties "builtinGlobals"
, "hoist"
and "allow"
.
{
"no-shadow": ["error", { "builtinGlobals": false, "hoist": "functions", "allow": [] }]
}
builtinGlobals
The builtinGlobals
option is false
by default.
If it is true
, the rule prevents shadowing of built-in global variables: Object
, Array
, Number
, and so on.
Examples of incorrect code for the { "builtinGlobals": true }
option:
/*eslint no-shadow: ["error", { "builtinGlobals": true }]*/
function foo() {
var Object = 0;
}
hoist
The hoist
option has three settings:
-
functions
(by default) - reports shadowing before the outer functions are defined. -
all
- reports all shadowing before the outer variables/functions are defined. -
never
- never report shadowing before the outer variables/functions are defined.
hoist: functions
Examples of incorrect code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let b = 6;
}
function b() {}
Although let b
in the if
statement is before the function declaration in the outer scope, it is incorrect.
Examples of correct code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
}
let a = 5;
Because let a
in the if
statement is before the variable declaration in the outer scope, it is correct.
hoist: all
Examples of incorrect code for the { "hoist": "all" }
option:
/*eslint no-shadow: ["error", { "hoist": "all" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
hoist: never
Examples of correct code for the { "hoist": "never" }
option:
/*eslint no-shadow: ["error", { "hoist": "never" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
Because let a
and let b
in the if
statement are before the declarations in the outer scope, they are correct.
allow
The allow
option is an array of identifier names for which shadowing is allowed. For example, "resolve"
, "reject"
, "done"
, "cb"
.
Examples of correct code for the { "allow": ["done"] }
option:
/*eslint no-shadow: ["error", { "allow": ["done"] }]*/
/*eslint-env es6*/
import async from 'async';
function foo(done) {
async.map([1, 2], function (e, done) {
done(null, e * 2)
}, done);
}
foo(function (err, result) {
console.log({ err, result });
});
Further Reading
Related Rules
- [no-shadow-restricted-names](no-shadow-restricted-names.md) Source: http://eslint.org/docs/rules/
'err' is already declared in the upper scope. Open
createPIN(redisKeyId, formattedPhone, function (err) {
- Read upRead up
- Exclude checks
disallow variable declarations from shadowing variables declared in the outer scope (no-shadow)
Shadowing is the process by which a local variable shares the same name as a variable in its containing scope. For example:
var a = 3;
function b() {
var a = 10;
}
In this case, the variable a
inside of b()
is shadowing the variable a
in the global scope. This can cause confusion while reading the code and it's impossible to access the global variable.
Rule Details
This rule aims to eliminate shadowed variable declarations.
Examples of incorrect code for this rule:
/*eslint no-shadow: "error"*/
/*eslint-env es6*/
var a = 3;
function b() {
var a = 10;
}
var b = function () {
var a = 10;
}
function b(a) {
a = 10;
}
b(a);
if (true) {
let a = 5;
}
Options
This rule takes one option, an object, with properties "builtinGlobals"
, "hoist"
and "allow"
.
{
"no-shadow": ["error", { "builtinGlobals": false, "hoist": "functions", "allow": [] }]
}
builtinGlobals
The builtinGlobals
option is false
by default.
If it is true
, the rule prevents shadowing of built-in global variables: Object
, Array
, Number
, and so on.
Examples of incorrect code for the { "builtinGlobals": true }
option:
/*eslint no-shadow: ["error", { "builtinGlobals": true }]*/
function foo() {
var Object = 0;
}
hoist
The hoist
option has three settings:
-
functions
(by default) - reports shadowing before the outer functions are defined. -
all
- reports all shadowing before the outer variables/functions are defined. -
never
- never report shadowing before the outer variables/functions are defined.
hoist: functions
Examples of incorrect code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let b = 6;
}
function b() {}
Although let b
in the if
statement is before the function declaration in the outer scope, it is incorrect.
Examples of correct code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
}
let a = 5;
Because let a
in the if
statement is before the variable declaration in the outer scope, it is correct.
hoist: all
Examples of incorrect code for the { "hoist": "all" }
option:
/*eslint no-shadow: ["error", { "hoist": "all" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
hoist: never
Examples of correct code for the { "hoist": "never" }
option:
/*eslint no-shadow: ["error", { "hoist": "never" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
Because let a
and let b
in the if
statement are before the declarations in the outer scope, they are correct.
allow
The allow
option is an array of identifier names for which shadowing is allowed. For example, "resolve"
, "reject"
, "done"
, "cb"
.
Examples of correct code for the { "allow": ["done"] }
option:
/*eslint no-shadow: ["error", { "allow": ["done"] }]*/
/*eslint-env es6*/
import async from 'async';
function foo(done) {
async.map([1, 2], function (e, done) {
done(null, e * 2)
}, done);
}
foo(function (err, result) {
console.log({ err, result });
});
Further Reading
Related Rules
- [no-shadow-restricted-names](no-shadow-restricted-names.md) Source: http://eslint.org/docs/rules/
Expected to return a value at the end of function 'verifyPhone'. Open
function verifyPhone(redisKeyId, phone, country, pin, cbk) {
- Read upRead up
- Exclude checks
require return
statements to either always or never specify values (consistent-return)
Unlike statically-typed languages which enforce that a function returns a specified type of value, JavaScript allows different code paths in a function to return different types of values.
A confusing aspect of JavaScript is that a function returns undefined
if any of the following are true:
- it does not execute a
return
statement before it exits - it executes
return
which does not specify a value explicitly - it executes
return undefined
- it executes
return void
followed by an expression (for example, a function call) - it executes
return
followed by any other expression which evaluates toundefined
If any code paths in a function return a value explicitly but some code path do not return a value explicitly, it might be a typing mistake, especially in a large function. In the following example:
- a code path through the function returns a Boolean value
true
- another code path does not return a value explicitly, therefore returns
undefined
implicitly
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
Rule Details
This rule requires return
statements to either always or never specify values. This rule ignores function definitions where the name begins with an uppercase letter, because constructors (when invoked with the new
operator) return the instantiated object implicitly if they do not return another object explicitly.
Examples of incorrect code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return;
}
}
function doSomething(condition) {
if (condition) {
return true;
}
}
Examples of correct code for this rule:
/*eslint consistent-return: "error"*/
function doSomething(condition) {
if (condition) {
return true;
} else {
return false;
}
}
function Foo() {
if (!(this instanceof Foo)) {
return new Foo();
}
this.a = 0;
}
Options
This rule has an object option:
-
"treatUndefinedAsUnspecified": false
(default) always either specify values or returnundefined
implicitly only. -
"treatUndefinedAsUnspecified": true
always either specify values or returnundefined
explicitly or implicitly.
treatUndefinedAsUnspecified
Examples of incorrect code for this rule with the default { "treatUndefinedAsUnspecified": false }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": false }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
Examples of incorrect code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
return true;
}
function bar(condition) {
if (condition) {
return undefined;
}
return true;
}
Examples of correct code for this rule with the { "treatUndefinedAsUnspecified": true }
option:
/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/
function foo(callback) {
if (callback) {
return void callback();
}
// no return statement
}
function bar(condition) {
if (condition) {
return undefined;
}
// no return statement
}
When Not To Use It
If you want to allow functions to have different return
behavior depending on code branching, then it is safe to disable this rule.
Source: http://eslint.org/docs/rules/
'err' is already declared in the upper scope. Open
redisMng.getKeyValue(`${redisKey}.pin`, function (err, redisPhonePin) {
- Read upRead up
- Exclude checks
disallow variable declarations from shadowing variables declared in the outer scope (no-shadow)
Shadowing is the process by which a local variable shares the same name as a variable in its containing scope. For example:
var a = 3;
function b() {
var a = 10;
}
In this case, the variable a
inside of b()
is shadowing the variable a
in the global scope. This can cause confusion while reading the code and it's impossible to access the global variable.
Rule Details
This rule aims to eliminate shadowed variable declarations.
Examples of incorrect code for this rule:
/*eslint no-shadow: "error"*/
/*eslint-env es6*/
var a = 3;
function b() {
var a = 10;
}
var b = function () {
var a = 10;
}
function b(a) {
a = 10;
}
b(a);
if (true) {
let a = 5;
}
Options
This rule takes one option, an object, with properties "builtinGlobals"
, "hoist"
and "allow"
.
{
"no-shadow": ["error", { "builtinGlobals": false, "hoist": "functions", "allow": [] }]
}
builtinGlobals
The builtinGlobals
option is false
by default.
If it is true
, the rule prevents shadowing of built-in global variables: Object
, Array
, Number
, and so on.
Examples of incorrect code for the { "builtinGlobals": true }
option:
/*eslint no-shadow: ["error", { "builtinGlobals": true }]*/
function foo() {
var Object = 0;
}
hoist
The hoist
option has three settings:
-
functions
(by default) - reports shadowing before the outer functions are defined. -
all
- reports all shadowing before the outer variables/functions are defined. -
never
- never report shadowing before the outer variables/functions are defined.
hoist: functions
Examples of incorrect code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let b = 6;
}
function b() {}
Although let b
in the if
statement is before the function declaration in the outer scope, it is incorrect.
Examples of correct code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
}
let a = 5;
Because let a
in the if
statement is before the variable declaration in the outer scope, it is correct.
hoist: all
Examples of incorrect code for the { "hoist": "all" }
option:
/*eslint no-shadow: ["error", { "hoist": "all" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
hoist: never
Examples of correct code for the { "hoist": "never" }
option:
/*eslint no-shadow: ["error", { "hoist": "never" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
Because let a
and let b
in the if
statement are before the declarations in the outer scope, they are correct.
allow
The allow
option is an array of identifier names for which shadowing is allowed. For example, "resolve"
, "reject"
, "done"
, "cb"
.
Examples of correct code for the { "allow": ["done"] }
option:
/*eslint no-shadow: ["error", { "allow": ["done"] }]*/
/*eslint-env es6*/
import async from 'async';
function foo(done) {
async.map([1, 2], function (e, done) {
done(null, e * 2)
}, done);
}
foo(function (err, result) {
console.log({ err, result });
});
Further Reading
Related Rules
- [no-shadow-restricted-names](no-shadow-restricted-names.md) Source: http://eslint.org/docs/rules/
'err' is already declared in the upper scope. Open
redisMng.updateKeyValue(`${redisKey}.attempts`, redisPinAttempts - 1, function (err) {
- Read upRead up
- Exclude checks
disallow variable declarations from shadowing variables declared in the outer scope (no-shadow)
Shadowing is the process by which a local variable shares the same name as a variable in its containing scope. For example:
var a = 3;
function b() {
var a = 10;
}
In this case, the variable a
inside of b()
is shadowing the variable a
in the global scope. This can cause confusion while reading the code and it's impossible to access the global variable.
Rule Details
This rule aims to eliminate shadowed variable declarations.
Examples of incorrect code for this rule:
/*eslint no-shadow: "error"*/
/*eslint-env es6*/
var a = 3;
function b() {
var a = 10;
}
var b = function () {
var a = 10;
}
function b(a) {
a = 10;
}
b(a);
if (true) {
let a = 5;
}
Options
This rule takes one option, an object, with properties "builtinGlobals"
, "hoist"
and "allow"
.
{
"no-shadow": ["error", { "builtinGlobals": false, "hoist": "functions", "allow": [] }]
}
builtinGlobals
The builtinGlobals
option is false
by default.
If it is true
, the rule prevents shadowing of built-in global variables: Object
, Array
, Number
, and so on.
Examples of incorrect code for the { "builtinGlobals": true }
option:
/*eslint no-shadow: ["error", { "builtinGlobals": true }]*/
function foo() {
var Object = 0;
}
hoist
The hoist
option has three settings:
-
functions
(by default) - reports shadowing before the outer functions are defined. -
all
- reports all shadowing before the outer variables/functions are defined. -
never
- never report shadowing before the outer variables/functions are defined.
hoist: functions
Examples of incorrect code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let b = 6;
}
function b() {}
Although let b
in the if
statement is before the function declaration in the outer scope, it is incorrect.
Examples of correct code for the default { "hoist": "functions" }
option:
/*eslint no-shadow: ["error", { "hoist": "functions" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
}
let a = 5;
Because let a
in the if
statement is before the variable declaration in the outer scope, it is correct.
hoist: all
Examples of incorrect code for the { "hoist": "all" }
option:
/*eslint no-shadow: ["error", { "hoist": "all" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
hoist: never
Examples of correct code for the { "hoist": "never" }
option:
/*eslint no-shadow: ["error", { "hoist": "never" }]*/
/*eslint-env es6*/
if (true) {
let a = 3;
let b = 6;
}
let a = 5;
function b() {}
Because let a
and let b
in the if
statement are before the declarations in the outer scope, they are correct.
allow
The allow
option is an array of identifier names for which shadowing is allowed. For example, "resolve"
, "reject"
, "done"
, "cb"
.
Examples of correct code for the { "allow": ["done"] }
option:
/*eslint no-shadow: ["error", { "allow": ["done"] }]*/
/*eslint-env es6*/
import async from 'async';
function foo(done) {
async.map([1, 2], function (e, done) {
done(null, e * 2)
}, done);
}
foo(function (err, result) {
console.log({ err, result });
});
Further Reading
Related Rules
- [no-shadow-restricted-names](no-shadow-restricted-names.md) Source: http://eslint.org/docs/rules/
TODO found Open
// TODO: replace with map()
- Exclude checks
Similar blocks of code found in 3 locations. Consider refactoring. Open
if (redisPinAttempts === '1') {
createPIN(redisKeyId, formattedPhone, function (err) {
if (err) {
return cbk(err);
}
- Read upRead up
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 57.
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 3 locations. Consider refactoring. Open
if (!redisPhonePin) {
createPIN(redisKeyId, formattedPhone, function (err) {
if (err) {
return cbk(err);
}
- Read upRead up
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 57.
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 3 locations. Consider refactoring. Open
if (!redisPinAttempts || redisPinAttempts === '0') {
createPIN(redisKeyId, formattedPhone, function (err) {
if (err) {
return cbk(err);
}
- Read upRead up
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 57.
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
Definition for rule 'extra-rules/no-for-loops' was not found Open
'use strict';
- Read upRead up
- Exclude checks
For more information visit Source: http://eslint.org/docs/rules/
Definition for rule 'extra-rules/potential-point-free' was not found Open
'use strict';
- Read upRead up
- Exclude checks
For more information visit Source: http://eslint.org/docs/rules/