I think you are focussing to much on negation and too little on what Perl booleans mean.

### Historical/Implementation Perspective

What is truth? The detection of a higher voltage that x Volts.

On a higher abstraction level: If this bit here is set.

The abstraction of a sequence of bits can be considered an integer. Is this integer false? Yes, if no bit is set, i.e. the integer is zero.

A hardware-oriented language will likely use this definition of truth, e.g. C, and all C descendants incl Perl.

The negation of `0`

could be bitwise negation—all bits are flipped to `1`

—, or we just set the last bit to `1`

. The results would usually be decoded as integers `-1`

and `1`

respectively, but the latter is more energy efficient.

### Pragmatic Perspective

It is *convenient* to think of all numbers but zero as *true* when we deal with counts:

```
my $wordcount = ...;
if ($wordcount) {
say "We found $wordcount words";
} else {
say "There were no words";
}
```

or

```
say "The array is empty" unless @array; # notice scalar context
```

A pragmatic language like Perl will likely consider zero to be false.

### Mathematical Perspective

There is no reason for any number to be false, every number is a well-defined entity. Truth or falseness emerges solely through predicates, expressions which can be true or false. Only this truth value can be negated. E.g.

```
¬(x ≤ y) where x = 2, y = 3
```

is false. Many languages which have a strong foundation in maths won't consider anything false but a special false value. In Lisps, `'()`

or `nil`

is usually false, but `0`

will usually be true. That is, a value is only true if it is not nil!

In such mathematical languages, `!3 == 0`

is likely a type error.

### Re: Beers

Beers are good. Any number of beers are good, as long as you have one:

```
my $beers = ...;
if (not $beers) {
say "Another one!";
} else {
say "Aaah, this is good.";
}
```

Boolification of a beer-counting variable just tells us if you have any beers. Consider `!!`

to be a boolification operator:

```
my $enough_beer = !! $beers;
```

The boolification doesn't concern itself with the exact amount. But maybe any number ≥ 3 is good. Then:

```
my $enough_beer = ($beers >= 3);
```

The negation is not enough beer:

```
my $not_enough_beer = not($beers >= 3);
```

or

```
my $not_enough_beer = not $beers;
fetch_beer() if $not_enough_beer;
```

### Sets

A Perl scalar does not symbolize a whole universe of things. Especially, `not 3`

is not the set of all entities that are not three. Is the expression `3`

a truthy value? Yes. Therefore, `not 3`

is a falsey value.

The suggested behaviour of `4 == not 3`

to be true is likely undesirable: `4`

and “all things that are not three” are not *equal*, the four is just one of many things that are not three. We should write it correctly:

```
4 != 3 # four is not equal to three
```

or

```
not( 4 == 3 ) # the same
```

It might help to think of `!`

and `not`

as *logical-negation-of*, but not as *except*.

### How to teach

It might be worth introducing mathematical predicates: expressions which can be true or false. If we only ever “create” truthness by explicit tests, e.g. `length($str) > 0`

, then your issues don't arise. We can name the results: `my $predicate = (1 < 2)`

, but we can decide to never print them out, instead: `print $predicate ? "True" : "False"`

. This sidesteps the problem of considering special representations of *true* or *false*.

Considering values to be true/false directly would then only be a shortcut, e.g. `foo if $x`

can considered to be a shortcut for

```
foo if defined $x and length($x) > 0 and $x != 0;
```

Perl is all about shortcuts.

Teaching these shortcuts, and the various contexts of perl and where they turn up (numeric/string/boolean operators) could be helpful.

- List Context
- Scalar Context
- Numeric Context
- String Context
- Boolean Context

- Void Context

`!`

operator. :) Check the`overload::Overloaded $beer`

. – kobame Jul 5 '13 at 16:00`!`

operator applies to boolean values. The expression`!3`

is a shorthand for`!(3 != 0)`

, the parenthesized expression representing the implicit boolean value that is being negated. Because`(3 != 0)`

is true or 1, its negation is 0 or false. That's why`!3 == !4`

. – Jonathan Leffler Jul 5 '13 at 16:01