`0=1`

is just a pattern binding.

Haskell 2010 Language Report describes

```
4.4.3 Function and Pattern Bindings
decl → (funlhs | pat) rhs
funlhs → var apat { apat }
| pat varop pat
| ( funlhs ) apat { apat }
rhs → = exp [where decls]
| gdrhs [where decls]
gdrhs → guards = exp [gdrhs]
guards → | guard1, …, guardn (n ≥ 1)
guard → pat
```

```
```
We distinguish two cases within this syntax: **a pattern binding** occurs when the left hand side is a **pat**; otherwise, the binding is called **a function binding**. Either binding may appear at the top-level of a module or within a where or let construct.

Patterns have this syntax:

```
pat → lpat qconop pat (infix constructor)
| lpat
lpat → apat
| - (integer | float) (negative literal)
| gcon apat1 … apatk (arity gcon = k, k ≥ 1)
apat → var [ @ apat] (as pattern)
| gcon (arity gcon = 0)
| qcon { fpat1 , … , fpatk } (labeled pattern, k ≥ 0)
| literal
| _ (wildcard)
| ( pat ) (parenthesized pattern)
| ( pat1 , … , patk ) (tuple pattern, k ≥ 2)
| [ pat1 , … , patk ] (list pattern, k ≥ 1)
| ~ apat (irrefutable pattern)
fpat → qvar = pat
```

Language Report also states

A pattern binding binds variables to values. A simple pattern binding has form p = e. The pattern p is matched “lazily” as an irrefutable pattern, as if there were an implicit ~ in front of it.

So, `0`

in `0=1`

is just a pattern. In essence, `0=1`

and `x=1`

are the same thing. They are both pattern bindings.

The pattern is irrefutable, `0=1`

does not fail, thus no error occurred and nothing happened.

If we have the following top level declaration. Something will happen.

```
x@(Just y) | z /= Nothing = Just 1
where
z = Just 0
```

`x`

and `y`

are binding to `Just 1`

and 1

.