This is an old myth. The other indexes on the array will not be assigned.
When you assign a property name that is an "array index" (e.g. alpha[10] = 'foo'
, a name that represents an unsigned 32-bit integer) and it is greater than the current value of the length
property of an Array
object, two things will happen:
- The "index named" property will be created on the object.
- The
length
will be incremented to be that index + 1
.
Proof of concept:
var alpha = [];
alpha[10] = 2;
alpha.hasOwnProperty(0); // false, the property doesn't exist
alpha.hasOwnProperty(9); // false
alpha.hasOwnProperty(10); // true, the property exist
alpha.length; // 11
As you can see, the hasOwnProperty
method returns false
when we test the presence of the 0
or 9
properties, because they don't exist physically on the object, whereas it returns true
for 10
, the property was created.
This misconception probably comes from popular JS consoles, like Firebug, because when they detect that the object being printed is an array-like one, they will simply make a loop, showing each of the index values from 0
to length - 1
.
For example, Firebug detects array-like objects simply by looking if they have a length
property whose its value is an unsigned 32-bit integer (less than 2^32 - 1), and if they have a splice
property that is a function:
console.log({length:3, splice:function(){}});
// Firebug will log: `[undefined, undefined, undefined]`
In the above case, Firebug will internally make a sequential loop, to show each of the property values, but no one of the indexes really exist and showing [undefined, undefined, undefined]
will give you the false sensation that those properties exist, or that they were "allocated", but that's not the case...
This has been like that since ever, it's specified even of the ECMAScript 1st Edition Specification (as of 1997), you shouldn't worry to have implementation differences.