I'm a little confused when I see the output of following code:
$x = "a"; $y = "b"; $x ^= $y; $y ^= $x; $x ^= $y; echo $x; //Got b echo $y; //Got a
How does the operator
^ work here?
The interesting thing about
XOR is that it is reversable: A XOR B XOR B == A ... that is not working with
OR. Because of this fact, it can be used as in your example to swap two values:
$x ^= $y; $y ^= $x; $x ^= $y;
$x = $x ^ $y $y = $y ^ ($x ^ $y) // = $x $x = ($x ^ $y) ^ ($y ^ ($x ^ $y)) // = $y
^ is the "exclusive or" bitwise operator. It reads in English as "either or". The result is 1 if and only if both bits differ:
1 ^ 0 = 1 1 ^ 1 = 0 0 ^ 0 = 0
Simplifying the example a bit so (and using Pseudo code):
$x = 0011 //binary $y = 0010 $x = $x xor $y //Result: x = 0001 //x = 0001 //y = 0010 $y = $y xor $x //Result: y = 0011 //x = 0001 //y = 0011 $x = $x xor $y //Result: x = 0010
All that PHP has done is treat the string "a" and "b" as their integer equivalents.
In this example, when you're using ^ characters, they are casted to integers. So
"a" ^ "b"
is the same as:
ord("a") ^ ord ("b")
with one exception. In the first example, the result was casted back to a string. For example:
"a" ^ "6" == "W"
ord("a") ^ ord("6") == 87
chr(87) == "W"
^ operator is a bitwise operator, meaning that it operates on every bit of its operands.
It returns a value in which each bit is
1 if the two corresponding bits in the operands are unequal, and
0 if they're equal.
100110110 ^ 010001100 = 110111010
The ^ operator performs an XOR on the bit values of each variable. XOR does the following:
a = 1100 b = 1010 xor = 0110
x is the result of the XOR operation. If the bits are equal the result is 0 if they are different the result is 1.
In your example the ^= performs XOR and assignment, and you swap the bits around between the two variables $x and $y.
Read more here http://en.wikipedia.org/wiki/Xor_swap_algorithm
XOR or the exclusive or is based on logic and circuits. It indicates that, for example,
A ^= B where A is 0111 and B is 0101 can be either 1 or 0 at each corresponding bit but not both. Therefore
A = 0111 B = 0101 _____ ^= 0010
To understand this better the rules of binary math apply except that there are no carry overs. So in binary math 1 + 0 = 1, 0 + 0 = 0, 0 + 1 = 1 and 1 + 1 = 0 (where a 1 is carried over to the next more significant position in binary math, but the XOR rules bypass this).
Note: That the XOR rules, therefore, allow you to take the result of A ^= B in the example above and add A to it to get B or add B to it to get A (referencing the swap ability mentioned above.