7. Object properties configuration
As we know, objects can store properties.
Until now, a property was a simple "key-value" pair to us. But an object property is actually a more flexible and powerful thing.
In this chapter we'll study additional configuration options, and in the next we'll see how to invisibly turn them into getter/setter functions.
Object properties, besides a value
, have three special attributes (so-called "flags"):
writable
-- if true
, the value can be changed, otherwise it's read-only.enumerable
-- if true
, then listed in loops, otherwise not listed.configurable
-- if true
, the property can be deleted and these attributes can be modified, otherwise not.We didn't see them yet, because generally they do not show up. When we create a property "the usual way", all of them are true
. But we also can change them anytime.
First, let's see how to get those flags.
The method Object.getOwnPropertyDescriptor allows to query the full information about a property.
The syntax is:
let descriptor = Object.getOwnPropertyDescriptor(obj, propertyName);
obj
: The object to get information from.
propertyName
: The name of the property.
The returned value is a so-called "property descriptor" object: it contains the value and all the flags.
For instance:
let user = {
name: "John"
};
let descriptor = Object.getOwnPropertyDescriptor(user, 'name');
alert( JSON.stringify(descriptor, null, 2 ) );
/* property descriptor:
{
"value": "John",
"writable": true,
"enumerable": true,
"configurable": true
}
*/
To change the flags, we can use Object.defineProperty.
The syntax is:
Object.defineProperty(obj, propertyName, descriptor)
obj
, propertyName
: The object and its property to apply the descriptor.
descriptor
: Property descriptor object to apply.
If the property exists, defineProperty
updates its flags. Otherwise, it creates the property with the given value and flags; in that case, if a flag is not supplied, it is assumed false
.
For instance, here a property name
is created with all falsy flags:
let user = {};
*!*
Object.defineProperty(user, "name", {
value: "John"
});
*/!*
let descriptor = Object.getOwnPropertyDescriptor(user, 'name');
alert( JSON.stringify(descriptor, null, 2 ) );
/*
{
"value": "John",
*!*
"writable": false,
"enumerable": false,
"configurable": false
*/!*
}
*/
Compare it with "normally created" user.name
above: now all flags are falsy. If that's not what we want then we'd better set them to true
in descriptor
.
Now let's see effects of the flags by example.
Let's make user.name
non-writable (can't be reassigned) by changing writable
flag:
let user = {
name: "John"
};
Object.defineProperty(user, "name", {
*!*
writable: false
*/!*
});
*!*
user.name = "Pete"; // Error: Cannot assign to read only property 'name'
*/!*
Now no one can change the name of our user, unless they apply their own defineProperty
to override ours.
In the non-strict mode, no errors occur when writing to non-writable properties and such. But the operation still won't succeed. Flag-violating actions are just silently ignored in non-strict.
Here's the same example, but the property is created from scratch:
let user = { };
Object.defineProperty(user, "name", {
*!*
value: "John",
// for new properties we need to explicitly list what's true
enumerable: true,
configurable: true
*/!*
});
alert(user.name); // John
user.name = "Pete"; // Error
Now let's add a custom toString
to user
.
Normally, a built-in toString
for objects is non-enumerable, it does not show up in for..in
. But if we add a toString
of our own, then by default it shows up in for..in
, like this:
let user = {
name: "John",
toString() {
return this.name;
}
};
// By default, both our properties are listed:
for (let key in user) alert(key); // name, toString
If we don't like it, then we can set enumerable:false
. Then it won't appear in a for..in
loop, just like the built-in one:
let user = {
name: "John",
toString() {
return this.name;
}
};
Object.defineProperty(user, "toString", {
*!*
enumerable: false
*/!*
});
*!*
// Now our toString disappears:
*/!*
for (let key in user) alert(key); // name
Non-enumerable properties are also excluded from Object.keys
:
alert(Object.keys(user)); // name
The non-configurable flag (configurable:false
) is sometimes preset for built-in objects and properties.
A non-configurable property can not be deleted.
For instance, Math.PI
is non-writable, non-enumerable and non-configurable:
let descriptor = Object.getOwnPropertyDescriptor(Math, 'PI');
alert( JSON.stringify(descriptor, null, 2 ) );
/*
{
"value": 3.141592653589793,
"writable": false,
"enumerable": false,
"configurable": false
}
*/
So, a programmer is unable to change the value of Math.PI
or overwrite it.
Math.PI = 3; // Error
// delete Math.PI won't work either
Making a property non-configurable is a one-way road. We cannot change it back with defineProperty
.
To be precise, non-configurability imposes several restrictions on defineProperty
:
configurable
flag.enumerable
flag.writable: false
to true
(the other way round works).get/set
for an accessor property (but can assign them if absent).The idea of "configurable: false" is to prevent changes of property flags and its deletion, while allowing to change its value.
Here user.name
is non-configurable, but we can still change it (as it's writable):
let user = {
name: "John"
};
Object.defineProperty(user, "name", {
configurable: false
});
user.name = "Pete"; // works fine
delete user.name; // Error
And here we make user.name
a "forever sealed" constant:
let user = {
name: "John"
};
Object.defineProperty(user, "name", {
writable: false,
configurable: false
});
// won't be able to change user.name or its flags
// all this won't work:
user.name = "Pete";
delete user.name;
Object.defineProperty(user, "name", { value: "Pete" });
There's a method Object.defineProperties(obj, descriptors) that allows to define many properties at once.
The syntax is:
Object.defineProperties(obj, {
prop1: descriptor1,
prop2: descriptor2
// ...
});
For instance:
Object.defineProperties(user, {
name: { value: "John", writable: false },
surname: { value: "Smith", writable: false },
// ...
});
So, we can set many properties at once.
To get all property descriptors at once, we can use the method Object.getOwnPropertyDescriptors(obj).
Together with Object.defineProperties
it can be used as a "flags-aware" way of cloning an object:
let clone = Object.defineProperties({}, Object.getOwnPropertyDescriptors(obj));
Normally when we clone an object, we use an assignment to copy properties, like this:
for (let key in user) {
clone[key] = user[key]
}
...But that does not copy flags. So if we want a "better" clone then Object.defineProperties
is preferred.
Another difference is that for..in
ignores symbolic properties, but Object.getOwnPropertyDescriptors
returns all property descriptors including symbolic ones.
Property descriptors work at the level of individual properties.
There are also methods that limit access to the whole object:
Object.preventExtensions(obj)
: Forbids the addition of new properties to the object.
Object.seal(obj)
: Forbids adding/removing of properties. Sets configurable: false
for all existing properties.
Object.freeze(obj)
: Forbids adding/removing/changing of properties. Sets configurable: false, writable: false
for all existing properties.
And also there are tests for them:
Object.isExtensible(obj)
: Returns false
if adding properties is forbidden, otherwise true
.
Object.isSealed(obj)
: Returns true
if adding/removing properties is forbidden, and all existing properties have configurable: false
.
Object.isFrozen(obj)
: Returns true
if adding/removing/changing properties is forbidden, and all current properties are configurable: false, writable: false
.
These methods are rarely used in practice.