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Considering an int will be 4 bytes on a 32-bit system and 8 bytes on a 64-bit system, why is float not treated the same? Why is size of a double != size of a float on a 64-bit system? Considering that the best native integer type is selected when I declare an int (which results in higher performance), shouldn't the same happen for float (which also results in a performance increase)?

Related question: Is it a bad idea to declare a type my_float (pardon the name!) that is float on 32-bit systems and double on 64-bit systems?

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closed as not constructive by Wooble, Jonathan Grynspan, Nemo, j0k, Clyde Lobo Sep 4 '12 at 9:05

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On most systems today (including x86), the efficiency of float is not dependent on 32/64-bit. –  Mysticial Sep 4 '12 at 1:11
This is not an absolute; it's completely up to the compiler. Most compilers make float a 32-bit IEEE-754 floating point number, but the standard doesn't require this. –  Wooble Sep 4 '12 at 1:12
@Mysticial: Is that true? I was under the impression that typical compilers (with default settings) used SSE for float when compiling 64-bit code but not when compiling 32-bit code. (Because not all 32-bit CPUs support SSE3, but all 64-bit CPUs do.) –  David Schwartz Sep 4 '12 at 1:13
@DavidSchwartz On 32-bit x86, 64-bit integers are only accessible via integer SSE. Where's this 128-bit integer support? I'd love to be able to do arithmetic on 128-bit integers - it'd help a lot on the projects that I do. –  Mysticial Sep 4 '12 at 1:19
@DavidSchwartz That's just the register size. I wouldn't really consider bitwise and byte-shifts as "integer support". It'd at least need to have a 128-bit addition/subtraction for it to be usable in any 128-bit arithmetic. –  Mysticial Sep 4 '12 at 1:27

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up vote 9 down vote accepted

Your question is based on a false premise. On most modern 64-bit systems, int is still 4 bytes. Why consume twice as much memory and twice as much memory bandwidth when such large integers are so rarely needed? On typical modern 64-bit systems, math on 64-bit integers is not faster than math on 32-bit integers, so there's no benefit to be had.

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Was gonna say exactly this--int isn't 64 bits on any system I've encountered! It's within standard to have a 64-bit-wide int type, but it's just not bothered with since compiler designers can/do widen long and long long first. –  Jonathan Grynspan Sep 4 '12 at 1:15
__int64 is twice the size of int, right? Maybe the OP is confused there, and thinks all ints on a 64-bit system are __int64? –  WendiKidd Sep 4 '12 at 1:15
@WendiKidd: You are right. I was under the impression that on 64-bit systems int size was 8 bytes, the native word size. Also, it has to be able to store a pointer address, no? –  Samaursa Sep 4 '12 at 1:18
__int64 is a) a Microsoft extension, and b) only twice as wide as int by virtue of coincidence. It is defined as 64 bits wide, while int is (on 32-bit and 64-bit MSVC++ platforms) defined as 32 bits wide, and the two are not related. –  Jonathan Grynspan Sep 4 '12 at 1:18
@Samaursa: There is no requirement that int be able to store a pointer address. –  David Schwartz Sep 4 '12 at 1:26

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