Let's go through the expression left-to-right:

```
a[ 0xFULL?'\0':-1:>>>=a<:!!0X.1P1 ]
```

The first thing I notice is that we are using the ternary operator from the use of `?`

. So the subexpression:

```
0xFULL ? '\0' : -1
```

is saying "if `0xFULL`

is non-zero, return `'\0'`

, otherwise `-1`

. `0xFULL`

is a hexadecimal literal with the *unsigned long-long suffix* - meaning it's a hexadecimal literal of type `unsigned long long`

. That doesn't really matter though, because `0xF`

can fit inside a regular integer.

Also, the ternary operator converts the types of the second and third terms to their common type. `'\0'`

is then converted to `int`

, which is just `0`

.

The value of `0xF`

is way bigger than zero, so it passes. The expression now becomes:

```
a[ 0 :>>>=a<:!!0X.1P1 ]
```

Next, `:>`

is a digraph. It is a construct that expands to `]`

:

```
a[0 ]>>=a<:!!0X.1P1 ]
```

`>>=`

is the signed right shift operator, we can space that out from `a`

to make it clearer.

Moreover, `<:`

is a digraph that expands to `[`

:

```
a[0] >>= a[!!0X.1P1 ]
```

`0X.1P1`

is a hexadecimal literal with an exponent. But no matter the value, the `!!`

of anything that's non-zero is true. `0X.1P1`

is `0.125`

which is non-zero, so it becomes:

```
a[0] >>= a[true]
-> a[0] >>= a[1]
```

The `>>=`

is the signed right shift operator. It changes the value of its left operand by shifting its bits forward by the value on the operator's right side. `10`

in binary is `1010`

. So here are the steps:

```
01010 >> 1 == 00101
00101 >> 1 == 00010
00010 >> 1 == 00001
00001 >> 1 == 00000
```

`>>=`

returns the result of its operation, so as long as shifting `a[0]`

remains non-zero for every time its bits are shifted right by one, the loop will continue. The fourth attempt is where `a[0]`

becomes `0`

, so the loop is never entered.

As a result, `?`

is printed three times.

`0x.1P1`

is a hexadecimal literal with an exponent. The`0x.1`

is the number part, or 1/16 here. The number after the 'P' is the power of two the number is multiplied by. So`0x.1p1`

is really 1/16 * 2, or 1/8. And if you were wondering about`0xFULL`

that's just`0xF`

, and`ULL`

is the suffix for an`unsigned long long`

– jackarms Aug 25 '14 at 22:10