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The title really says it all: what is the difference between minus one and tilda (ones-complement) zero?

The question came up during a discussion of the best way to specify a bit mask in which all bits are set. Which of the following is better?

int func(int value, int mask = -1) {
    return (value & mask);


int func(int value, int mask = ~0) {
    return (value & mask);

Are there any other uses where it would be the other way around?

Update: There has been a similar discussion on this topic over at stackoverflow.com/q/809227/34509 which I missed during my prior research. Thanks to Johannes Schaub for pointing it out.

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Since when is this java? –  Buhake Sindi Jul 18 '11 at 14:16
Admittedly I was thinking C++ while writing the examples, but the question originally came up while using java. –  zennehoy Jul 18 '11 at 14:18
If by "best" you mean "most readable", then they're both awful. What's wrong with 0xFFFFFFFF? –  Edward Thomson Jul 18 '11 at 14:21
0xFFFFFFFF assumes that ints are 32 bits wide, which is not necessarily the case. –  zennehoy Jul 18 '11 at 14:23

3 Answers 3

up vote 7 down vote accepted

The first variant relies on 2's complement representation of negative numbers, which isn't necessarily used. 1's complement can be used too... or other encoding. My vote is for the second approach

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Ok, that makes sense. Though honestly, what architecture still uses anything other than 2's complement? And I believe java actually guarantees it? –  zennehoy Jul 18 '11 at 14:26
The JVM does guarantee the int type to be a 32 bit two's complement number. –  Edward Thomson Jul 18 '11 at 16:48
I think that both rely on two's complement (if you use int). We had this question previously stackoverflow.com/q/809227/34509 . In particular, the ~0 could end up being the value 0, in which case it could end up being all bits zero when stored. Only on two's complement, the resulting bit pattern of ~0 will identify a unique value (-1) instead of a single value having two possible representations (negative/positive zero). So I think the only portable way is to use unsigned int and assign -1 to it. –  Johannes Schaub - litb Jul 19 '11 at 14:11

The second example is more clear as to what you're trying to test for.

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Both are same. Except that, -1 doesn go well with unsigned int without warning.

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