prefer-destructuring
Require destructuring from arrays and/or objects
🔧 Fixable
Some problems reported by this rule are automatically fixable by the --fix command line option
With JavaScript ES6, a new syntax was added for creating variables from an array index or object property, called destructuring. This rule enforces usage of destructuring instead of accessing a property through a member expression.
Rule Details
Options
This rule takes two sets of configuration objects. The first object parameter determines what types of destructuring the rule applies to.
The two properties, array and object, can be used to turn on or off the destructuring requirement for each of those types independently. By default, both are true.
Alternatively, you can use separate configurations for different assignment types. It accepts 2 other keys instead of array and object.
One key is VariableDeclarator and the other is AssignmentExpression, which can be used to control the destructuring requirement for each of those types independently. Each property accepts an object that accepts two properties, array and object, which can be used to control the destructuring requirement for each of array and object independently for variable declarations and assignment expressions. By default, array and object are set to true for both VariableDeclarator and AssignmentExpression.
The rule has a second object with a single key, enforceForRenamedProperties, which determines whether the object destructuring applies to renamed variables.
Note: It is not possible to determine if a variable will be referring to an object or an array at runtime. This rule therefore guesses the assignment type by checking whether the key being accessed is an integer. This can lead to the following possibly confusing situations:
- Accessing an object property whose key is an integer will fall under the category
arraydestructuring. - Accessing an array element through a computed index will fall under the category
objectdestructuring.
The --fix option on the command line fixes only problems reported in variable declarations, and among them only those that fall under the category object destructuring. Furthermore, the name of the declared variable has to be the same as the name used for non-computed member access in the initializer. For example, var foo = object.foo can be automatically fixed by this rule. Problems that involve computed member access (e.g., var foo = object[foo]) or renamed properties (e.g., var foo = object.bar) are not automatically fixed.
Examples of incorrect code for this rule:
Open in Playground
/* eslint prefer-destructuring: "error" */
// With `array` enabled
var ;
;
// With `object` enabled
var ;
var ;
Examples of correct code for this rule:
Open in Playground
/* eslint prefer-destructuring: "error" */
// With `array` enabled
var [ foo ] = array;
var foo = array[someIndex];
[bar.baz] = array;
// With `object` enabled
var { foo } = object;
var foo = object.bar;
let bar;
({ bar } = object);
Examples of incorrect code when enforceForRenamedProperties is enabled:
Open in Playground
/* eslint "prefer-destructuring": ["error", { "object": true }, { "enforceForRenamedProperties": true }] */
var ;
Examples of correct code when enforceForRenamedProperties is enabled:
Open in Playground
/* eslint "prefer-destructuring": ["error", { "object": true }, { "enforceForRenamedProperties": true }] */
var { bar: foo } = object;
Examples of additional correct code when enforceForRenamedProperties is enabled:
Open in Playground
/* eslint "prefer-destructuring": ["error", { "object": true }, { "enforceForRenamedProperties": true }] */
class C {
#x;
foo() {
const bar = this.#x; // private identifiers are not allowed in destructuring
}
}
An example configuration, with the defaults array and object filled in, looks like this:
{
"rules": {
"prefer-destructuring": ["error", {
"array": true,
"object": true
}, {
"enforceForRenamedProperties": false
}]
}
}
The two properties, array and object, which can be used to turn on or off the destructuring requirement for each of those types independently. By default, both are true.
For example, the following configuration enforces only object destructuring, but not array destructuring:
{
"rules": {
"prefer-destructuring": ["error", {"object": true, "array": false}]
}
}
An example configuration, with the defaults VariableDeclarator and AssignmentExpression filled in, looks like this:
{
"rules": {
"prefer-destructuring": ["error", {
"VariableDeclarator": {
"array": false,
"object": true
},
"AssignmentExpression": {
"array": true,
"object": true
}
}, {
"enforceForRenamedProperties": false
}]
}
}
The two properties, VariableDeclarator and AssignmentExpression, which can be used to turn on or off the destructuring requirement for array and object. By default, all values are true.
For example, the following configuration enforces object destructuring in variable declarations and enforces array destructuring in assignment expressions.
{
"rules": {
"prefer-destructuring": ["error", {
"VariableDeclarator": {
"array": false,
"object": true
},
"AssignmentExpression": {
"array": true,
"object": false
}
}, {
"enforceForRenamedProperties": false
}]
}
}
Examples of correct code when object destructuring in VariableDeclarator is enforced:
Open in Playground
/* eslint prefer-destructuring: ["error", {VariableDeclarator: {object: true}}] */
var {bar: foo} = object;
Examples of correct code when array destructuring in AssignmentExpression is enforced:
Open in Playground
/* eslint prefer-destructuring: ["error", {AssignmentExpression: {array: true}}] */
[bar] = array;
When Not To Use It
If you want to be able to access array indices or object properties directly, you can either configure the rule to your tastes or disable the rule entirely.
Additionally, if you intend to access large array indices directly, like:
var foo = array[100];
Then the array part of this rule is not recommended, as destructuring does not match this use case very well.
Or for non-iterable ‘array-like’ objects:
var $ = require('jquery');
var foo = $('body')[0];
var [bar] = $('body'); // fails with a TypeError
Version
This rule was introduced in ESLint v3.13.0.
Further Reading
