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A gotcha I've run into a few times in C-like languages is this:

original | included & ~excluded   // BAD

Due to precedence, this parses as:

original | (included & ~excluded)   // '~excluded' has no effect

Does anyone know what was behind the original design decision of three separate precedence levels for bitwise operators? More importantly, do you agree with the decision, and why?

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up vote 6 down vote accepted

The operators have had this precedence since at least C.

I agree with the order because it is the same relative order as the relative order of the arithmetic operators that they are most similar to (+, * and negation).

You can see the similarity of & vs *, and | vs + here:

A  B | A&B A*B | A|B A+B 
0  0 |  0   0  |  0   0
0  1 |  0   0  |  1   1
1  0 |  0   0  |  1   1
1  1 |  1   1  |  1   2

The similarity of bitwise not and negation can be seen by this formula:

~A = -A - 1
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Yes, in logics ∧ also has higher precedence than ∨ for the same reason. – sepp2k Sep 16 '10 at 20:40
You could note that ^ is below * and above | which is somewhat arbitrary but reasonable. The unfortunate choice in C is to have the binary bitwise operators lower in precedence than the comparison operators requiring expressions like (status & MASK) != MASK to require the extra parenthesis. – RBerteig Sep 16 '10 at 20:45
This all makes sense, except that distributivity also holds in reverse: A|B & A|C == A | (B&C). But I would say the use cases for bitwise ops are far different than the use cases for boolean ops (whose precedence makes perfect sense to me). Would you look down on a language who defined all bitwise op precedences to be the same? (and why?) – zildjohn01 Sep 16 '10 at 20:58
@zildjohn01: Good point, I have removed the distributivity one. Regarding your question - would I look down on such a language? I'd find it very unintuitive but adding in the extra parentheses rarely makes the code less readable so it wouldn't be a huge problem if I know about it (and I'd probably learn it the hard way - by writing code that doesn't work and debugging it). If a language use illogical (in my opinion) order of precedence then I'd immediately be on my guard, wondering what other "problems" I might run into with that language. It's related to the principle of least astonishment. – Mark Byers Sep 16 '10 at 21:09
@zildjohn01, I've never tried to figure out the rationale behind the precedence inversion between bitwise and compare. I assume there was a rationale, because even 1st ed. K&R calls it out as a source of error. By then, it was too late to fix, of course, and almost thirty years later is way too late to fix it. IMHO, if a language is "sufficiently C-like", then its operators should follow C precedence or you risk cognitive dissonance. I don't exactly what I mean by "sufficiently", of course. – RBerteig Sep 17 '10 at 0:27

To extend Mark Byers' answer, in boolean algebra (used extensively by electrical engineers to simplify logic circuits to the minimum number of gates and to avoid race conditions), the tradition is that bitwise AND takes precedent over bitwise OR. C was just following this established tradition. See :

Just as in ordinary algebra, where multiplication takes priority over addition, AND takes priority (or precedence) over OR.

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