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I've just noticed an interesting property of gcc with regard to bit-fields. If I create a struct like the following:

template <int N>
struct C
    unsigned long long data : N;

Then on amd64:

  1. with -m64, for N ∊ <1, 64>, sizeof(C) == 8;
  2. with -m32, for N ∊ <1, 32>, sizeof(C) == 4 and for N ∊ <33, 64>, sizeof(C) == 8.

(with sizeof(unsigned long long) == 8).

That seems to mostly resemble the C99/C++11 uint_fastXX_t except for the fact that on my system sizeof(uint_fast8_t) == 1. But for example, I can't reproduce anything similar with __int128 (which always results in sizeof(C) == 16).

Does it seem like a good idea to you to use the fore-mentioned struct as a «poor man's» replacement for uint_fastXX_t in C++98?

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It is the poor man's bit type. Maps poorly to most cpu architectures, they take an extra cpu cyle or two. –  Hans Passant Aug 18 '12 at 22:39
@HansPassant: some proof would be approved. –  Michał Górny Aug 18 '12 at 22:41
You get the proof by measuring it. Don't ever not measure. You might as well program in Java if you don't measure. –  Hans Passant Aug 18 '12 at 22:55
@HansPassant: I'd say that assembly is a good enough proof for me. And the two solutions are giving identical assembly for me. –  Michał Górny Aug 18 '12 at 22:56

2 Answers 2

up vote 7 down vote accepted

No -- a bit-field will frequently be considerably slower than a bare, unadorned int, because if you do something (e.g., addition or multiplication) that might overflow the designated size, the compiler will (typically) insert a bitwise and instruction to ensure that the result fits in the specified size. E.g., if you multiply two 10-bit numbers and put the result in a 10-bit field, the multiplication may produce up to a 20-bit number, so the compiler will normally produce the 20-bit result, the use a bitwise and to get the 10 least significant bits for the result.

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Well, I was considering using it as a… bit-field! In other words, &, |, ~ and bool-ing the whole value. –  Michał Górny Aug 18 '12 at 21:42

Not really. On most systems we care about, uint_fast32_t, uint_least32_t, and uint32_t will be the same type.

It is only on exotic hardware the fast/least types might be 36 bits, for example, instead of 32.

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So, you don't care about 64-bit systems or am I misunderstanding your intentions? –  Michał Górny Aug 18 '12 at 21:42
It's just an example. Not all systems are 32- or 64-bit. On the (slightly exotic) system I linked to, unsigned long long would be 72 bits, but sizeof(unsigned long long) still 8 (with CHAR_BIT == 9). –  Bo Persson Aug 18 '12 at 22:00
But say, if I need 8 bits of them for a bit-field, wouldn't an unsigned long long:8 (or unsigned long:8) bit-field be more likely optimal than a random type like char? –  Michał Górny Aug 18 '12 at 22:05

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