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Suppose I have unsigned long long x = 0x0123456789ABCDEF.

Which of the following is correct? (I can verify only the first one):

  • On a 32-bit little-endian processor, it will appear in memory as 67 45 23 01 EF CD AB 89.
  • On a 64-bit little-endian processor, it will appear in memory as EF CD AB 89 67 45 23 01.
  • On a 32-bit big-endian processor, it will appear in memory as 01 23 45 67 89 AB CD EF.
  • On a 64-bit big-endian processor, it will appear in memory as 01 23 45 67 89 AB CD EF.
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have you tried? Have you googled that? –  V-X Jan 31 at 11:18
"Endian representation of a 64-bit value" would make a better title. Registers on a 32-bit system are 32 bits. –  Jonathon Reinhart Jan 31 at 11:18
@V-X: It didn't show up on stack overflow questions & answers. And as I mentioned in the question: I can only verify the first one (since I only have that specific processor at hand). –  barak manos Jan 31 at 11:19
The second third and fourth ones are true, the first one is false. Note that 32 vs 64 bit is a red herring - only the endianness matters. –  Paul R Jan 31 at 11:22

3 Answers 3

up vote 5 down vote accepted

The first one is wrong. On ia32 at least the layout is EF CD AB 89 67 45 23 01.

The others are correct.

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Thanks; I said "I can verify only the first one" but assumed I was correct, so didn't bother :) sorry ... My assumption was that "byte order" would apply on a variable with the size of no more than N bytes, where N is the processor's register-size. Apparently that assumption was wrong... thanks. –  barak manos Jan 31 at 11:35
Please note that the answer to this question is not dictated by the C standard. The integer representation is up to the compiler manufacturer. It is permissible (although highly inconvenient) for a compiler to store integer values in a big-endian manner on little-endian hardware. –  Klas Lindbäck Jan 31 at 11:48

I'd say the 32-bit solution is very much up to the compiler. It can choose to represent this type that it lacks native support for in any way it pleases, as long as the size is the expected one.

The 64-bit ones I'd agree with as being correct.

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Little endian means the least-significant bits are in the first byte, and big endian means the least-significant bits are in the last byte:

0x0123456789ABCDEF big endian is 0x01, 0x23, 0x45 ...

0x0123456789ABCDEF little endian is 0xEF, 0xCD, 0xAB ...

The native word endianess and size of the processor is inconsequential; the appearance in memory is dictated by the endian.

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Yes, but it can only go up to a certain size. So if you have a structure with a size of 32 bytes, for example, it wouldn't "reverse all the bytes", correct? I've assumed that this size depends on the processor's register-size. –  barak manos Jan 31 at 11:32
The endianness of an integer determines the byte order of that integer in memory. Structures do not have endianness. Endianness is a property of integers in a structure, but the structure itself is laid out as the compiler chooses, with the field alignment it chooses. –  Will Jan 31 at 11:43
@barak manos There is no size limit. Sequential endian 1 2 3 4 5 6 7 8 and 8 7 6 5 4 3 2 1 are most common, but 5 6 7 8 1 2 3 4 and other variations exist. For fun, note that a URL is a mixed endian "stackoverflow.com/questions/21478765...";. If it was big endian, it would be "com.stackoverflow/questions/21478765..."; –  chux Jan 31 at 13:50

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