In Perl6, operators subroutines and methods have a singular purpose for a given name.

In the case of the infix `+`

operator it is to add two numbers. So if it is given something that is not a number it tries to turn it into a number before adding.

In the case of the `.invert`

method, its fundamental purpose is to invert a Pair object. That is swap the `.key`

and the `.value`

of a Pair.

So everywhere that `.invert`

can be used, it does so in the way that is most like inverting a Pair object.

On a Pair object with a singular `.value`

, it swaps the key and the value.

```
say ('a' => 'A').invert;
# (A => a)
```

If the `.value`

is not singular it gives you a sequence where each value is now the key of its own Pair.

```
say ('a' => ('A', 'B')).invert;
# (A => a B => a)
```

Note that `.invert`

always returns a sequence to be consistent. Even on that first example.

On a Hash it does it on all of the key / value pairs.

```
say %( 'a' => ('A','B'), 'b' => 'B', 1 => 'A' ).invert.sort;
# (A => 1 A => a B => a B => b)
```

On a List, it could do it one of two ways.

It could use the index as the key, exactly like `.antipairs`

does.

```
say ( 'a' => ('A','B'), 'b' => 'B', 1 => 'A' ).antipairs.sort;
# ((1 => A) => 2 (a => (A B)) => 0 (b => B) => 1)
say ( 'a', 'b', 'c' ).antipairs;
# (a => 0 b => 1 c => 2)
```

It could go through each of the Pairs in the list like it currently does.

```
say ( 'a' => ('A','B'), 'b' => 'B', 1 => 'A' ).invert.sort
(A => 1 A => a B => a B => b)
```

Since `.antipairs`

already works like `.pairs`

except the opposite, there is really no reason for `.invert`

to also work like it. That would have also made `.invert`

less like a Pair method.

This also has the nice effect that you can get the Pairs from a Hash as a list then call `.invert`

on it, and it will work like just calling `.invert`

on the Hash directly.

```
say %( 'a' => ('A','B'), 'b' => 'B', 1 => 'A' ).invert.sort;
# (A => 1 A => a B => a B => b)
say %( 'a' => ('A','B'), 'b' => 'B', 1 => 'A' ).list.invert.sort;
# (A => 1 A => a B => a B => b)
```

It also means that you can call `.invert`

several times and it stays consistent.

```
say %( 'a' => ('A','B'), 'b' => 'B', 1 => 'A' ).invert.invert.invert.sort;
# (A => 1 A => a B => a B => b)
```