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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
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    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
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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.

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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.

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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.

Link: http://www.wolframalpha.com/input/?i=1+%26+2+%7C+3

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.

Ref1: https://reference.wolfram.com/language/tutorial/OperatorInputForms.html

Ref2: http://reference.wolfram.com/language/guide/BitwiseOperations.html

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:

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