# Bitwise operators order of precedence

According to wikipedia the bitwise AND operator has higher precedence than the bitwise OR. However wolfram says they are equivalent. Are the following two expressions equivalent?

``````C &  A | B
C & (A | B)
``````

My thoughts are that they are the same since I believe | and & have the same precedence, so we just evaluate left to right.

• The order of operations will depend on the language. I plugged `c AND a OR b` into Wolfram Alpha and it gives me `(c AND a) OR b`. Also `c OR a AND b` gives me `c OR (a AND b)` so it does look like in Wolfram Alpha `AND` has higher precedence than `OR`. These are logical operators instead of bitwise, but I think they'd follow the same pattern. – NullUserException Oct 30 '13 at 20:50
• @NullUserException I guess that indirectly raises a possibly interesting point: in C and C++ the logical operations always explicitly evaluate from left to right and evaluation ends as soon as the result is known (so in any `&&` the right side is not evaluated if the left side evaluates to zero; in any `||` the right side is not evaluated if the left side evaluates to non-zero). The bitwise operators have precedence and no special rules about avoid evaluation of subexpressions. – Tommy Oct 30 '13 at 21:16
• You can see &, ^ and | as the bitwise versions of, respectively, multiplication, addition and maximum. That sort of justifies their most widely used precedences. – harold Nov 1 '13 at 13:11

In theory any language or logic system could dictate the precedence of its operators. However, in all languages I am familiar with, bitwise (and logical, for that matter) AND has higher precedence than OR.

Given that & and | are fundamental operators and, crucially, (a & b) | c = d does not imply a & (b | c) =d, it seems very unlikely that any real language would leave their relative precedence undefined.

I don't think they have a natural precedence, unlike say multiplication and division being of greater precedence than subtraction and addition because they can be built from subtraction and addition.

In C `&` has higher precedence than `|` so your two statements are not equivalent. I'd guess most languages with C-like syntax will inherit from that.

If you give Wolfram Alpha '|' and '&' it will translate it into bitwise functions like BitAnd(x,y) and BitOr(x,y). The expression of binary operators is ambiguous, but it gets changed into functions which are not ambiguous.

Example: `1 & 2 | 3` will get changed into `BitOr[BitAnd[1,2],3]`, and there is only one way to evaluate those functions. As above commenters noted, Alpha is putting & above | in precedence.

Interestingly, this feature of translating binary operators '|' and '&' appears to be undocumented as it does not appear in any of the standard Wolfram guides to their operators.

Some examples for bitwise operators from other languages, high->low

• Python: and, xor, or
• C++: and, xor, or
• Golang: and, xor == or (left associative)
• Pascal: and, or
• Swift: and, xor == or (left associative)
• Dart: and, xor, or
• Javascript: and, xor, or

Refs: