# Bitwise Operation confusion

Firstly, let me just state for the record that this is in prep for a midterm I have Wednesday. I'm taking a C Programming course and we've barely even touched Bitwise Operations, but we're being tested on them.

For instance, we're supposed to know something like what A, B, C, and D are initialized as in code like this:

``````unsigned int A, B, C, D;
A = 0xfedc & 0x300c;
B = 0xba98 | 0x1236;
C = 0x7654 ^ 0xfa00;
D = ~0xffff3210;
``````

If possible, could you provide me with a decent tutorial/guide for understanding these concepts? An explanation would be awesome too, but I'd prefer not to be handed an actual answer explanation.

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Those are not logic operators, but bitwise operators. –  Daniel Fischer Oct 1 '12 at 22:06
Funnily enough, my teacher called them logic operations, hence why I used that. I thought they were really bitwise though. My apologies. –  Josh Oct 1 '12 at 23:08
No need to apologise. Especially if your teacher called them thus. And one can view them as applying logic operations on pairs of corresponding bits [for `~` of course not on pairs] simultaneously, so it's not completely wrong, just unusual - except that the part of the processor doing these operations is called the Arithmetic Logic unit, so it's not so unusual. But calling them bitwise operators to distinguish them from `&&` and `||` has - obvious, I believe - advantages. –  Daniel Fischer Oct 1 '12 at 23:14

The first issue is:

• Do you recognize `&` as bitwise AND, `|` as bitwise OR, `^` as bitwise XOR, and `~` as bitwise NOT?

If not, you've got a problem or two and need to get to the point of recognizing them all.

Then you need to know what each operation means...

• For a given bit position, if both bits are `1`, then `b1 & b2` will be `1`; otherwise, it will be `0`.
• For a given bit position, if both bits are `0`, then `b1 | b2` will be `0`; otherwise, it will be `1`.
• For a given bit position, if the two bits are the same (both `0` or both `1`), then `b1 ^ b2` will be `0`; otherwise it will be `1`.
• For a given bit position, if the bit is `0`, `~b1` will be `1`; otherwise, it will be `0`.

You also need to recognize that the hex representation is closely related to the bit patterns in the number.

• 0x0 ⟶ 00002
• 0x1 ⟶ 00012
• ...
• 0xE ⟶ 11102
• 0xF ⟶ 11112

Combining these, you can deduce the answers for the questions shown, applying the bitwise operators to each bit of the operands.

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I'm in a class right now, so I can't write a full response. However I definitely understand that first line you've got there. The main thing is that I need to figure out if the pattern behind the bits and hex. I don't have either memorized right now. –  Josh Oct 1 '12 at 23:09
While I think I have an handle on the overlying logic, could you explain what you mean by using the subscript after eat binary number? –  Josh Oct 2 '12 at 2:25
The subscript 2 simply indicates that the binary number is a binary number; I could have used 16 as a subscript on the LHS, but the 0x prefix is unambiguous too. There isn't a standard way to represent binary numbers in C; you'll occasionally see 0b1111 or something similar used; this is unambiguous but non-standard, so I didn't use it. –  Jonathan Leffler Oct 2 '12 at 3:03
FWIW: `A = 0x300C`, `B = 0xBABE`, `C = 0x8C54`, `D = 0x0000CDEF`, as no doubt you could demonstrate for yourself by writing a trivial program to do the printing. Your homework is making sure you know why those answers are correct. –  Jonathan Leffler Oct 2 '12 at 6:25
Yeah I figured that part out fortunately. The unfortunate thing is that my teacher has us handwrite code during exams - no computers. So this really is all by hand/brain. If I had a computer, I could go with trial and error and figure it out much easier. Thanks again. –  Josh Oct 3 '12 at 7:29