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My desktop and laptop machines have 64 bit and 32 bit Ubuntu 10.10's running on them respectively. I use the gcc compiler

Now on my desktop machine I observe that sizeof(long)=8 while on my laptop sizeof(long)=4.

On machines such as my laptop where sizeof(int) =sizeof(long)=4 are there any situations where would I would prefer long over int even though they cover the same range of integers?

On my desktop of course long would be advantageous if I want a larger range of integers (though of course I could have used int64_t or long long for that also)

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¤ Generally just use int (that's what Bjarne does). But use long over int if the code might be compiled on a system where the added range of long can be advantageous, or if it might be compiled on a system where the range of int might be unacceptably small. The standard only guarantees that int is at least 16 bits, whereas long is guaranteed to be at least 32 bits. These guarantees are by reference down to the C standard, where the number of bits are implied by the guaranteed number ranges. Note: the last time this was discussed, trolls/morons joined the debate. Cheers & hth., –  Cheers and hth. - Alf Dec 4 '11 at 7:28
    
@Alf P. Steinbach: Why not post that comment as an answer? –  In silico Dec 4 '11 at 7:29
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@AlfP.Steinbach: I will upvote you if you make that an answer. –  Mysticial Dec 4 '11 at 7:30
    
@Alf: that's the best part of SO -- trolls get downvoted and their answers fall off the deep end of the list. –  sarnold Dec 4 '11 at 7:35
    
@AlfP.Steinbach, this is really bad advice. The sematic typedef's (size_t, ptrdiff_t, uint64_t etc) are there just for the reason that you don't have to go into such considerations. –  Jens Gustedt Dec 4 '11 at 11:08
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5 Answers

up vote 5 down vote accepted

Don't use either of them. In modern C (starting with C89) or C++ there are typedef that have a semantic that helps you to write portable code. int is almost always wrong, the only use case that I still have for that is the return value of library functions. Otherwise use

  • bool or _Bool for Booleans (if you have C++ or C99, otherwise use a typedef)
  • enum for applicative case distinction
  • size_t for counting and indexing
  • unsigned types when you use integers for bit patterns
  • ptrdiff_t (if you must) for differences of addresses

If you really have an application use for a signed integer type, use either intmax_t to have the most and to be on the safe end, or one of the intXX_t to have a type with well defined precision and arithmetic.

Edit: If your main concern is performance with some minimum width guarantee use the "least" or "fast" types, e.g int_least32_t. On all platforms that I programmed so far there was not much of a difference between the precise width types and the "least" types, but who knows.

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I do not agree with the advice to always use the intXX_t types. In almost all cases, what is required is a minimum range, and the base types provide this just fine. There are times when the exact-width types are useful, but this is generally when serialising/deserialising data (eg from a file or a network socket). –  caf Dec 4 '11 at 12:23
    
@caf take XX as _leastYY :) you are right, I'll add that to my answer. –  Jens Gustedt Dec 4 '11 at 12:27
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On a 32-bit OS, where sizeof(int)==sizeof(long)==4 an int and a long offer the same services.

But, for portability reasons (if you compile your code in 64-bit for example), since an int will stay at 32-bit while a long can be either 32 or 64-bit, you should use types that fit a constant size to avoid overflows.

For this purpose, the <stdint.h> header declares non-ambiguous types like:

int8_t
int16_t
int32_t
uint8_t
uint16_t
uint32_t

intptr_t

Where intptr_t / uintptr_t can represent pointers better than a long (the common sizeof(long)==sizeof(void*) assumption is not always true).

time_t and size_t are also types defined to make it easier to write portable code without wondering about the platform specifications.

Just make sure that, when you need to allocate memory, you use sizeof (like sizeof(size_t)) instead of assuming that a type has any given (hardcoded) value.

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While it certainly isn't a common practice, the Linux kernel source makes the assumption that pointers -- any pointer to any type -- can fit entirely inside an unsigned long.

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As @Alf noted above, you might choose either int or long for portability reasons.

  • On older, 16-bit operating systems, int was 16-bit and long was 32-bit;
  • On 32-bit Unix, DOS, and Windows (or 64-bit processors running 32-bit programs), int and long are 32-bits;
  • On 64-bit Unix, int is 32-bits, while long is 64-bits.
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For portability reasons you should use a long if you need more than 16 bits and up to 32 bits of precision. That's really all there is to it - if you know that your values won't exceed 16 bits, then int is fine.

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