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I am kinda new to bit operations. I am trying to store information in an int64_t variable like this:

int64_t u = 0;

   u |= 1 << i;

   u |= 0 << i;

int t = __builtin_popcountl(u);

and what I intended with this was to store 44 1s in variable u and make sure that the remaining positions are all 0, so "t" returns 44. However, it always returns 64. With other variables, e.g. int32, it also fails. Why?

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Although the second loop wouldn't cause any trouble (that is because it has no use at all), u |= 0 << i; wouldn't be the proper way to clear (set to zero) the ith bit. You should rather do something like u &= ~(1 << i); to clear the ith bit of u. 1 << i would shift 1 to the left by i, then ~ would inverse the whole thing. anding with that would clear the bit where 0 is, that would be the ith bit, where 1 was before the inversion. –  ThoAppelsin Jun 12 '14 at 19:32
In your second loop, anything | 0 is just the original value. I.e., u |= 0 << i leaves u completely unchanged regardless of the value of i. –  wolfPack88 Jun 12 '14 at 19:33
In that case the first loop would do the trick by itself, no? –  a3mlord Jun 12 '14 at 19:39
u = (1u << 44) -1; (you don't need the loops) –  wildplasser Jun 12 '14 at 19:44
No, IIRC you don't need to sizecast 1u or 1ul or 1ull constants. (maybe if they exceed native machine register size). u = (1ull << 44) -1; will do, anyway. @KeithThomson below has the correct answer. –  wildplasser Jun 12 '14 at 21:00

3 Answers 3

The type of an expression is generally determined by the expression itself, not by the context in which it appears.

Your variable u is of type int64_t (incidentally, uint64_t would be better since you're performing bitwise operations).

In this line:

u |= 1 << i;

since 1 is of type int, 1 << i is also of type int. If, as is typical, int is 32 bits, this has undefined behavior for larger values of i.

If you change this line to:

u |= (uint64_t)1 << i;

it should do what you want.

You could also change the 1 to 1ULL. That gives it a type of unsigned long long, which is guaranteed to be at least 64 bits but is not necessarily the same type as uint64_t.

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Your suggestion gives me t=6; –  a3mlord Jun 12 '14 at 20:00
@a3mlord: I get 44: gist.github.com/Keith-S-Thompson/d7260611080f74fab130 –  Keith Thompson Jun 12 '14 at 20:09
Now I get it. You suggested (uint64_t)i << 1;, not (uint64_t)1 << i;... –  a3mlord Jun 12 '14 at 20:14
@a3mlord: Argh! That was a typo, now corrected. Abject apologies for the confusion. –  Keith Thompson Jun 12 '14 at 20:16
The way that is foreseen by the standard to produce the correct constants is UINT64_C(1), I think. –  Jens Gustedt Jun 12 '14 at 20:22
  1. __builtin_popcountl takes unsigned long as its paremeter, which is not always 64-bit integer. I personally use __builtin_popcountll, which takes long long. Looks like it's not the case for you
  2. Integers have type 'int' by default, and by shifting int by anything greater or equal to 32 (to be precise, int's size in bits), you get undefined behavior. Correct usage: u |= 1LL << i; Here LL stands for long long.
  3. Oring with zero does nothing. You can't just set bit to a particular value, you should either OR with mask (if you want to set some bits to 1s) or AND with mask's negation (if you want to set some bits to 0s), negation is done by tilda (~).
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"Integers have type int by default". That's not really correct. Integer objects have whatever type they're declared to have. Integer expressions have a type that depends on the expression; there is no default. The issue here is that the constant 1 has type int. The type of an unsuffixed decimal integer constant is the first of int, long int, or long long int in which its value can be represented. (In C90, the list was int, long int, unsigned long int; that changed in C99.) –  Keith Thompson Jun 12 '14 at 19:43

When you shift in the high bit of the 32-bit integer and and convert to 64-bit the sign bit will extend through the upper 32 bits; which you will then OR in setting all 64 bits, because your literal '1' is a signed 32 bit int by default. The shift will also not effect the upper 32 bits because the value is only 32 bit; however the conversion to 64-bit will when the the value being converted is negative.

This can be fixed by writing your first loop like this:

   u |= (int64_t)1 << i;

Moreover, this loop does nothing since ORing with 0 will not alter the value:

   u |= 0 << i;
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