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Sometimes I want to do something like this (with i and j being ints).

(if i==4 && j==9)

Where it'll go through the brackets if i equals 4 and j equals 9. I've been using a single ampersand (&) instead of a double one and my code's been compiling and running.

Is it doing the same thing as a double ampersand &&, and if not what has it been doing?

Edit: Oh and I've been doing the same thing with or, using '|' instead of '||'

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No. It is not a shorthand although they may often appear equivalent. One is a "bitwise AND", one is a "short-circuiting logical AND" (plenty of information using those terms). –  user166390 Dec 19 '12 at 2:26

4 Answers 4

up vote 9 down vote accepted

Presumably you mean if (i==4 && j==9).

Under the circumstances, changing this from && to & shouldn't change much. The big thing that'll change is that with &&, the j==9 would only be evaluated if the i==4 part was true, but with &, they'll both be evaluated regardless.

When you have something like if (x != NULL && x->whatever ...) you want to ensure that the second part (that dereferences x) is only evaluated if x is not a null pointer. In your case, however, comparing what appear to be ints is unlikely to produce any problems.

It's also possible to run into a problem when you're dealing with something that may produce a value other than 1 to signal true. Again, it's not a problem here because == will always produce either 0 or 1. If (for example) you were using isalpha, islower, etc., from <ctype.h>, they're only required to produce 0 or non-zero values. If you combined those with a &, you'd get a bit-wise or which could produce 0 for two non-zero inputs (e.g., 1 & 2 == 0, but 1 && 2 == 1).

When you use bitwise and on the results from ==, you're going to get 0 & 0 or 0 & 1 or 1 & 0 or 1 & 1. 1 & 1 will yield 1 (true). All the others will yield 0 (false) --- just like && would have.

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Good points, about not using short circuit evaluation. –  alex Dec 19 '12 at 2:26
+1. if (x != NULL && x->whatever ...) you want to ensure that the second part (that dereferences x) is only evaluated if x is not a null pointer. that's good example. –  Jack Dec 19 '12 at 4:16

It's performing a bitwise AND.

What it's doing is the expression i == 4 is equivalent to 1 if i is 4 and the same for the RHS (with j and 9, obviously). The & operator returns the number where both operands have that bit on.

It works the same as && because 00000001 & 00000001 (slimmed down to a byte for example) is the same. If one is 0 (the condition was false), then the & won't see two bits turned on for both operands, and 00000000 is 0, which is falsey.

However, do not simply use & because it's one character shorter or similar. Use it because it expresses what you want to achieve. If it's a logical AND you want, use &&.

The same thing applies to |, except instead of a resulting bit if each operand has it turned on, it turns it on if either operand has that bit turned on.

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A single ampersand does a bitwise AND. Every bit of the result is set only if both operands have a 1 in that position.

Since comparisons in C return 1 for true and 0 for false, & will give the same results as && as long as both operands are comparisons. But for arbitrary values, it will return seemingly random results. 1 && 2 is true, but 1 & 2 is false because the binary representations of 1 and 2 have no bits in common.

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A single ampersand is called a bitwise and. It is a binary operator that 'ands' two numbers bit by bit.

For instance, if you have two binary numbers, 01100010 and 00011111, your bitwise and will result in 00000010

i==4 returns 1 (true), as does j==9. So, i==4 & j==9 is really just 1 & 1, which evaluates to 1 (true).

Try these examples to see the difference

1) int k = 4 & 6; vs int k = 4 && 6;

2) if(i==4 && 2) vs if(i==4 & 2)

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Ok so what happens if I have the example above with one ampersand. How does "i==4 & j==9" work? –  Robert Z Dec 19 '12 at 2:23
editted extra info –  aleph_null Dec 19 '12 at 2:26

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