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
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
The value of
0xF is way bigger than zero, so it passes. The expression now becomes:
a[ 0 :>>>=a<:!!0X.1P1 ]
:> 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.
<: is a digraph that expands to
a >>= 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.
0.125 which is non-zero, so it becomes:
a >>= a[true]
-> a >>= a
>>= 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 remains non-zero for every time its bits are shifted right by one, the loop will continue. The fourth attempt is where
0, so the loop is never entered.
As a result,
? is printed three times.