**TL;DR**

```
t.length >>> 0;
```

actually tries to get a valid 32 bit unsigned integer from `t.length`

. For what we know, `t.length`

could be of any type (an object, array, string etc). `>>> 0`

returns the value unaltered if it is already a valid 32 bit unsigned number. For example,

```
console.log({} >>> 0);
// 0
console.log([] >>> 0);
// 0
console.log("Google" >>> 0);
// 0
```

Normally, this bitwise trick is used to avoid a `if`

block type checking, like this

```
var len = 0;
if (typeof data === 'number') {
len = data;
}
```

We might still have to convert `len`

to an integer, if it is a floating point value.

**Explanation**

`>>>`

is called Zero-fill right shift operator. Apart from being used as a bitwise operator, it is used to get a 32 bit numeric value out of an object. The ECMA Script 5.1 Specification for `>>>`

says that

- Let
*lref* be the result of evaluating *ShiftExpression*.
- Let
*lval* be GetValue(*lref*).
- Let
*rref* be the result of evaluating *AdditiveExpression*.
- Let
*rval* be GetValue(*rref*).
- Let
*lnum* be ToUint32(*lval*).
- Let
*rnum* be ToUint32(*rval*).
- Let
*shiftCount* be the result of masking out all but the least significant 5 bits of *rnum*, that is, compute *rnum* & 0x1F.
- Return the result of performing a zero-filling right shift of
*lnum* by *shiftCount* bits. Vacated bits are filled with zero. **The result is an unsigned 32-bit integer.**

It basically converts both the operands to 32 bit unsigned integer (Step 5 and 6) and shifts the left hand side expression, right hand side expression times.

If we look at the definition of `ToInt32`

,

- Let
*number* be the result of calling ToNumber on the input argument.
- If
*number* is NaN, +0, −0, +∞, or −∞, return +0.
- Let
*posInt* be sign(*number*) * floor(abs(*number*)).
- Let
*int32bit* be *posInt* modulo 2^{32}; that is, a finite integer value *k* of Number type with positive sign and less than 2^{32} in magnitude such that the mathematical difference of *posInt* and *k* is mathematically an integer multiple of 2^{32}.
- Return
*int32bit*.

First the argument is converted to a number (if it is a not a valid number then `NaN`

will be returned by `ToNumber`

). And step 4 makes sure that you return a valid number in the range 0 to 2^{32}.