I've got this statement in Java:
System.out.println(34);
Why is the output 7?
It's a bitwise OR operation. It's modifying things at a binary level.
011 3
in binary:  100 in decimal:  4
___ ___
111 7
Open Windows calc using scientific mode. You can flip between decimal and binary (and hex) and perform bitwise operations including or, and, xor, etc.
To do a bitwise or in your head or on paper, compare each digit of the same ordinal. If either number is a 1, the result at that ordinal will be 1.
The operator 
does a "bitwise OR". The output of bitwise OR on two bits is 1 if either bit is 1 or 0 if both bits are 0. Bitwise OR on two numbers just does a bitwise OR on each bit individually.
Heres how 34
works:
3: 00000011
4: 00000100

34: 00000111 = 7
1210
might be a more thorough example of the bitwiseor operator. Although the OP here asks specifically about 34
– Tim Bender
Jul 22 '10 at 19:39
It's doing a bitwise OR
operation, and 3 OR
4 is 7.

, is what is called a 'Bitwise OR'. That means that it performs a low level OR on the actual bits that make up the arguments. In this case, 3 is 0011
and 4 is 0100
(least 4 significant bits shown). A Bitwise OR goes through each bit and sets it to a 1 if either of the bits are 1, so in this case you get 0111
, or 7. What were you actually trying to print out, or was this an example from a book/tutorial?
– Stephen
Jul 22 '10 at 19:31
34 == 7
– Tim Bender
Jul 22 '10 at 19:35
Binary representation:
3 = 00000011
4 = 00000100
 is bitwise OR operator
when you OR two numbers, you take the binary representation and the OR result is 1 IFF for that column at least one column is set true (1)
So
00000011
00000100

00000111
then, columns tell you the value at that position:
128, 64, 32, 16, 8, 4, 2, 1
so
128, 64, 32, 16, 8, 4, 2, 1
0 , 0, 0, 0, 0, 1, 1, 1
any column with a 1 means you add that column's value:
4 + 2 + 1 = 7
 is the "bitwise or" operator. in ab, if nth bit of a and/or b is 1, the nth bit of the result will be 1. 3 is 11 in binary. 4 is 100 in binary.
0 1 1
or or or
1 0 0
= = =
1 1 1
And 111 happens to be the binary representation of 7.
It's useful to realize there is a generalized system for counting underlying this. Binary is base2. Familiar decimal is base10. Linux permission octal is base 8.
A number's value is obtained by adding together the individual values of each of its digits. For any digit, the value is derived from a simple formula.
(digit) * (base) ^ (number of places to the left of the decimal point)
123 = one hundred and twenty three = (1 * 10^2) + (2 * 10^1) + (3 * 10^0) = 100 + 20 + 3
I learned that in CS211 (not bragging, just remembering)
As bitwise operators can be a little confusing without something to correlate them to, the way I've explained their function to nonprogrammers even is that you simply subtitute 1 for true and 0 for false, and then they behave identically to the operators in the english language:
the moon is blue AND the sky is blue, is false
0 and 1 is 0
the moon is blue OR the sky is blue, is true
0 or 1 is 1
but the analogy breaks down when I get to:
the ocean is blue XOR the trees are green, is false
34
to befalse
and not7
and I suspect that pretty much everybody who took math in high school would expect the same. – Jörg W Mittag Jul 23 '10 at 13:08